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authorAndrew Au <andrewau@microsoft.com>2018-05-10 14:49:39 -0700
committerAndrew Au <cshung@gmail.com>2018-11-06 18:34:47 -0800
commitc6d26187c8ce8fc68829f262a79996f00b1e1a85 (patch)
treea804fc4d890621ecc94c5b0fa5253c4b71a6a091
parente5744ae2855ee74f8f2f8020c0ef2d54bbfb746d (diff)
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The GC events are now working, somewhat ...
-rw-r--r--src/debug/di/process.cpp1515
-rw-r--r--src/debug/di/rsmain.cpp155
-rw-r--r--src/debug/di/shimcallback.cpp177
-rw-r--r--src/debug/di/shimpriv.h113
-rw-r--r--src/debug/ee/debugger.cpp917
-rw-r--r--src/debug/ee/debugger.h167
-rw-r--r--src/debug/inc/dbgipceventtypes.h13
-rw-r--r--src/inc/cordebug.idl349
-rw-r--r--src/pal/prebuilt/idl/cordebug_i.cpp2
-rw-r--r--src/pal/prebuilt/inc/cordebug.h26
-rw-r--r--src/vm/dbginterface.h35
-rw-r--r--src/vm/gcenv.ee.cpp63
12 files changed, 1821 insertions, 1711 deletions
diff --git a/src/debug/di/process.cpp b/src/debug/di/process.cpp
index a49addcd17..18e0ac7aaf 100644
--- a/src/debug/di/process.cpp
+++ b/src/debug/di/process.cpp
@@ -3,7 +3,7 @@
// See the LICENSE file in the project root for more information.
//*****************************************************************************
// File: process.cpp
-//
+//
//
//*****************************************************************************
@@ -11,7 +11,7 @@
#include "primitives.h"
#include "safewrap.h"
-#include "check.h"
+#include "check.h"
#ifndef SM_REMOTESESSION
#define SM_REMOTESESSION 0x1000
@@ -34,7 +34,7 @@
// Keep this around for retail debugging. It's very very useful because
// it's global state that we can always find, regardless of how many locals the compiler
// optimizes away ;)
-struct RSDebuggingInfo;
+struct RSDebuggingInfo;
extern RSDebuggingInfo * g_pRSDebuggingInfo;
//---------------------------------------------------------------------------------------
@@ -56,20 +56,20 @@ extern RSDebuggingInfo * g_pRSDebuggingInfo;
// Assumptions:
//
// Notes:
-// The outgoing process object can be cleaned up by calling Detach (which
-// will reset the Attach bit.)
+// The outgoing process object can be cleaned up by calling Detach (which
+// will reset the Attach bit.)
// @dbgtodo attach-bit: need to determine fate of attach bit.
//
//---------------------------------------------------------------------------------------
STDAPI OpenVirtualProcessImpl(
- ULONG64 clrInstanceId,
+ ULONG64 clrInstanceId,
IUnknown * pDataTarget,
HMODULE hDacModule,
CLR_DEBUGGING_VERSION * pMaxDebuggerSupportedVersion,
REFIID riid,
IUnknown ** ppInstance,
CLR_DEBUGGING_PROCESS_FLAGS* pFlagsOut)
-{
+{
HRESULT hr = S_OK;
RSExtSmartPtr<CordbProcess> pProcess;
PUBLIC_API_ENTRY(NULL);
@@ -95,7 +95,7 @@ STDAPI OpenVirtualProcessImpl(
}
// This process object is intended to be used for the V3 pipeline, and so
- // much of the process from V2 is not being used. For example,
+ // much of the process from V2 is not being used. For example,
// - there is no ShimProcess object
// - there is no w32et thread (all threads are effectively an event thread)
// - the stop state is 'live', which corresponds to CordbProcess not knowing what
@@ -104,8 +104,8 @@ STDAPI OpenVirtualProcessImpl(
clrInstanceId,
pDataTarget, // takes a reference
hDacModule,
- NULL, // Cordb
- (DWORD) 0, // 0 for V3 cases (pShim == NULL).
+ NULL, // Cordb
+ (DWORD) 0, // 0 for V3 cases (pShim == NULL).
NULL, // no Shim in V3 cases
&pProcess));
@@ -123,7 +123,7 @@ STDAPI OpenVirtualProcessImpl(
}
}
- //
+ //
// Check to make sure the debugger supports debugging this version
// Note that it's important that we still store the flags (above) in this case
//
@@ -191,17 +191,17 @@ STDAPI OpenVirtualProcessImpl2(
//---------------------------------------------------------------------------------------
// DEPRECATED - use OpenVirtualProcessImpl
// OpenVirtualProcess method used by the shim in CLR v4 Beta1
-// We'd like a beta1 shim/VS to still be able to open dumps using a CLR v4 Beta2+ mscordbi.dll,
+// We'd like a beta1 shim/VS to still be able to open dumps using a CLR v4 Beta2+ mscordbi.dll,
// so we'll leave this in place (at least until after Beta2 is in wide use).
//---------------------------------------------------------------------------------------
STDAPI OpenVirtualProcess2(
- ULONG64 clrInstanceId,
+ ULONG64 clrInstanceId,
IUnknown * pDataTarget,
HMODULE hDacModule,
REFIID riid,
IUnknown ** ppInstance,
CLR_DEBUGGING_PROCESS_FLAGS* pFlagsOut)
-{
+{
CLR_DEBUGGING_VERSION maxVersion = {0};
maxVersion.wMajor = 4;
return OpenVirtualProcessImpl(clrInstanceId, pDataTarget, hDacModule, &maxVersion, riid, ppInstance, pFlagsOut);
@@ -213,11 +213,11 @@ STDAPI OpenVirtualProcess2(
// Used directly in CLR v4 pre Beta1 - can probably be safely removed now
//---------------------------------------------------------------------------------------
STDAPI OpenVirtualProcess(
- ULONG64 clrInstanceId,
+ ULONG64 clrInstanceId,
IUnknown * pDataTarget,
REFIID riid,
IUnknown ** ppInstance)
-{
+{
return OpenVirtualProcess2(clrInstanceId, pDataTarget, NULL, riid, ppInstance, NULL);
};
@@ -329,7 +329,7 @@ IMDInternalImport * CordbProcess::LookupMetaData(VMPTR_PEFile vmPEFile, bool &is
// There may be perf issues here. The DAC may make a lot of metadata requests, and so
// this may be an area for potential perf optimizations if we find things running slow.
-
+
// enumerate through all Modules
for (CordbAppDomain * pAppDomain = m_appDomains.FindFirst(&hashFindAppDomain);
pAppDomain != NULL;
@@ -530,12 +530,12 @@ IMDInternalImport * CordbProcess::LookupMetaDataFromDebuggerForSingleFile(
//
// Notes:
// Since this function is a callback from DAC, it must not take the process lock.
-// If it does, we may deadlock between the DD lock and the process lock.
+// If it does, we may deadlock between the DD lock and the process lock.
// If we really need to take the process lock for whatever reason, we must take it in the DBI functions
// which call the DAC API that ends up calling this function.
// See code:InternalDacCallbackHolder for more information.
//
-
+
void * CordbProcess::Alloc(SIZE_T lenBytes)
{
return new BYTE[lenBytes]; // throws
@@ -550,15 +550,15 @@ void * CordbProcess::Alloc(SIZE_T lenBytes)
//
// Notes:
// Since this function is a callback from DAC, it must not take the process lock.
-// If it does, we may deadlock between the DD lock and the process lock.
+// If it does, we may deadlock between the DD lock and the process lock.
// If we really need to take the process lock for whatever reason, we must take it in the DBI functions
// which call the DAC API that ends up calling this function.
// See code:InternalDacCallbackHolder for more information.
//
-
+
void CordbProcess::Free(void * p)
{
- // This shouldn't throw.
+ // This shouldn't throw.
delete [] ((BYTE *) p);
}
@@ -566,38 +566,38 @@ void CordbProcess::Free(void * p)
//---------------------------------------------------------------------------------------
//
// #DBIVersionChecking
-//
+//
// There are a few checks we need to do to make sure we are using the matching DBI and DAC for a particular
// version of the runtime.
-//
+//
// 1. Runtime vs. DBI
// - Desktop
// This is done by making sure that the CorDebugInterfaceVersion passed to code:CreateCordbObject is
// compatible with the version of the DBI.
-//
+//
// - Windows CoreCLR
// This is done by dbgshim.dll. It checks whether the runtime DLL and the DBI DLL have the same
// product version. See CreateDebuggingInterfaceForVersion() in dbgshim.cpp.
-//
+//
// - Remote transport (Mac CoreCLR + CoreSystem CoreCLR)
// Since there is no dbgshim.dll for a remote CoreCLR, we have to do this check in some other place.
-// We do this in code:CordbProcess::CreateDacDbiInterface, by calling
-// code:DacDbiInterfaceImpl::CheckDbiVersion right after we have created the DDMarshal.
+// We do this in code:CordbProcess::CreateDacDbiInterface, by calling
+// code:DacDbiInterfaceImpl::CheckDbiVersion right after we have created the DDMarshal.
// The IDacDbiInterface implementation on remote device checks the product version of the device
// coreclr by:
// mac - looking at the Info.plist file in the CoreCLR bundle.
// CoreSystem - this check is skipped at the moment, but should be implemented if we release it
-//
+//
// The one twist here is that the DBI needs to communicate with the IDacDbiInterface
// implementation on the device BEFORE it can verify the product versions. This means that we need to
-// have one IDacDbiInterface API which is consistent across all versions of the IDacDbiInterface.
+// have one IDacDbiInterface API which is consistent across all versions of the IDacDbiInterface.
// This puts two constraints on CheckDbiVersion():
-//
+//
// 1. It has to be the first API on the IDacDbiInterface.
-// - Otherwise, a wrong version of the DBI may end up calling a different API on the
+// - Otherwise, a wrong version of the DBI may end up calling a different API on the
// IDacDbiInterface and getting random results. (Really what matters is that it is
// protocol message id 0, at present the source code position implies the message id)
-//
+//
// 2. Its parameters cannot change.
// - Otherwise, we may run into random errors when we marshal/unmarshal the arguments for the
// call to CheckDbiVersion(). Debugging will still fail, but we won't get the
@@ -624,7 +624,7 @@ void CordbProcess::Free(void * p)
//
// - Remote transport (Mac CoreCLR and CoreSystem CoreCLR)
// Because the transport exists between DBI and DAC it becomes much more important to do a versioning check
-//
+//
// Mac - currently does a tightly bound version check between DBI and the runtime (CheckDbiVersion() above),
// which transitively gives a tightly bound check to DAC. In same function there is also a check that is
// logically a DAC DBI protocol check, verifying that the m_dwProtocolBreakingChangeCounter of DbiVersion
@@ -645,20 +645,20 @@ void CordbProcess::Free(void * p)
// case would be changing the DDMarshal proxy generation code. In addition to the hashes we also
// embed timestamps when the auto-generated code was produced. However this isn't used for version
// matching, only as a hint to indicate which of two mismatched versions is newer.
-//
-//
+//
+//
// 3. Runtime vs. DAC
// - Desktop, Windows CoreCLR, CoreSystem CoreCLR
// In both cases we check this by matching the timestamp in the debug directory of the runtime image
-// and the timestamp we store in the DAC table when we generate the DAC dll. This is done in
+// and the timestamp we store in the DAC table when we generate the DAC dll. This is done in
// code:ClrDataAccess::VerifyDlls.
-//
+//
// - Mac CoreCLR
-// On Mac, we don't have a timestamp in the runtime image. Instead, we rely on checking the 16-byte
-// UUID in the image. This UUID is used to check whether a symbol file matches the image, so
-// conceptually it's the same as the timestamp we use on Windows. This is also done in
+// On Mac, we don't have a timestamp in the runtime image. Instead, we rely on checking the 16-byte
+// UUID in the image. This UUID is used to check whether a symbol file matches the image, so
+// conceptually it's the same as the timestamp we use on Windows. This is also done in
// code:ClrDataAccess::VerifyDlls.
-//
+//
//---------------------------------------------------------------------------------------
//
// Instantiates a DacDbi Interface object in a live-debugging scenario that matches
@@ -681,7 +681,7 @@ CordbProcess::CreateDacDbiInterface()
{
_ASSERTE(m_pDACDataTarget != NULL);
_ASSERTE(m_pDacPrimitives == NULL); // don't double-init
-
+
// Caller has already determined which CLR in the target is being debugged.
_ASSERTE(m_clrInstanceId != 0);
@@ -699,7 +699,7 @@ CordbProcess::CreateDacDbiInterface()
}
//
- // Get the access interface, passing our callback interfaces (data target, allocator and metadata lookup)
+ // Get the access interface, passing our callback interfaces (data target, allocator and metadata lookup)
//
IDacDbiInterface::IAllocator * pAllocator = this;
@@ -707,10 +707,10 @@ CordbProcess::CreateDacDbiInterface()
typedef HRESULT (STDAPICALLTYPE * PFN_DacDbiInterfaceInstance)(
- ICorDebugDataTarget *,
+ ICorDebugDataTarget *,
CORDB_ADDRESS,
- IDacDbiInterface::IAllocator *,
- IDacDbiInterface::IMetaDataLookup *,
+ IDacDbiInterface::IAllocator *,
+ IDacDbiInterface::IMetaDataLookup *,
IDacDbiInterface **);
IDacDbiInterface* pInterfacePtr = NULL;
@@ -724,7 +724,7 @@ CordbProcess::CreateDacDbiInterface()
IfFailThrow(hrStatus);
// We now have a resource, pInterfacePtr, that needs to be freed.
- m_pDacPrimitives = pInterfacePtr;
+ m_pDacPrimitives = pInterfacePtr;
// Setup DAC target consistency checking based on what we're using for DBI
m_pDacPrimitives->DacSetTargetConsistencyChecks( m_fAssertOnTargetInconsistency );
@@ -732,7 +732,7 @@ CordbProcess::CreateDacDbiInterface()
//---------------------------------------------------------------------------------------
//
-// Is the DAC/DBI interface initialized?
+// Is the DAC/DBI interface initialized?
//
// Return Value:
// TRUE iff init.
@@ -749,14 +749,14 @@ BOOL CordbProcess::IsDacInitialized()
//---------------------------------------------------------------------------------------
//
-// Get the DAC interface.
+// Get the DAC interface.
//
// Return Value:
// the Dac/Dbi interface pointer to the process.
// Never returns NULL.
//
// Assumptions:
-// Caller is responsible for ensuring Data-Target is safe to access (eg, not
+// Caller is responsible for ensuring Data-Target is safe to access (eg, not
// currently running).
// Caller is responsible for ensuring DAC-cache is flushed. Call code:CordbProcess::ForceDacFlush
// as needed.
@@ -778,7 +778,7 @@ IDacDbiInterface * CordbProcess::GetDAC()
//---------------------------------------------------------------------------------------
// Get the Data-Target
-//
+//
// Returns:
// pointer to the data-target. Should be non-null.
// Lifetime of the pointer is until this process object is neutered.
@@ -793,9 +793,9 @@ ICorDebugDataTarget * CordbProcess::GetDataTarget()
//
// Arguments:
// pDataTarget - abstracts access to the debuggee.
-// clrInstanceId - identifies the CLR instance within the debuggee. (This is the
+// clrInstanceId - identifies the CLR instance within the debuggee. (This is the
// base address of mscorwks)
-// pCordb - Pointer to the implementation of the owning Cordb object implementing the
+// pCordb - Pointer to the implementation of the owning Cordb object implementing the
// owning ICD interface.
// This should go away - we can get the functionality from the pShim.
// If this is null, then pShim must be null too.
@@ -814,13 +814,13 @@ ICorDebugDataTarget * CordbProcess::GetDataTarget()
//
//---------------------------------------------------------------------------------------
-// static
+// static
HRESULT CordbProcess::OpenVirtualProcess(
- ULONG64 clrInstanceId,
+ ULONG64 clrInstanceId,
IUnknown * pDataTarget,
HMODULE hDacModule,
- Cordb* pCordb,
- DWORD dwProcessID,
+ Cordb* pCordb,
+ DWORD dwProcessID,
ShimProcess * pShim,
CordbProcess ** ppProcess)
{
@@ -863,9 +863,9 @@ HRESULT CordbProcess::OpenVirtualProcess(
// This will bump reference count.
if (pShim != NULL)
{
- pShim->SetProcess(pProcess);
+ pShim->SetProcess(pProcess);
- _ASSERTE(pShim->GetProcess() == pThis);
+ _ASSERTE(pShim->GetProcess() == pThis);
_ASSERTE(pShim->GetWin32EventThread() != NULL);
}
@@ -889,7 +889,7 @@ HRESULT CordbProcess::OpenVirtualProcess(
// In failure case, pProcess's dtor will do the final release.
}
-
+
return hr;
}
@@ -898,16 +898,16 @@ HRESULT CordbProcess::OpenVirtualProcess(
// CordbProcess constructor
//
// Arguments:
-// pDataTarget - Pointer to an implementation of ICorDebugDataTarget
+// pDataTarget - Pointer to an implementation of ICorDebugDataTarget
// (or ICorDebugMutableDataTarget), which virtualizes access to the process.
// clrInstanceId - representation of the CLR to debug in the process. Must be specified
// (non-zero) if pShim is NULL. If 0, use the first CLR that we see.
-// pCordb - Pointer to the implementation of the owning Cordb object implementing the
+// pCordb - Pointer to the implementation of the owning Cordb object implementing the
// owning ICD interface.
// pW32 - Pointer to the Win32 event thread to use when processing events for this
// process.
-// dwProcessID - For V3, 0.
-// Else for shim codepaths, the processID of the process this object will represent.
+// dwProcessID - For V3, 0.
+// Else for shim codepaths, the processID of the process this object will represent.
// pShim - Pointer to the shim for handling V2 debuggers on the V3 architecture.
//
//---------------------------------------------------------------------------------------
@@ -920,13 +920,13 @@ CordbProcess::CordbProcess(ULONG64 clrInstanceId,
ShimProcess * pShim)
: CordbBase(NULL, dwProcessID, enumCordbProcess),
m_fDoDelayedManagedAttached(false),
- m_cordb(pCordb),
- m_handle(NULL),
- m_detached(false),
+ m_cordb(pCordb),
+ m_handle(NULL),
+ m_detached(false),
m_uninitializedStop(false),
m_exiting(false),
m_terminated(false),
- m_unrecoverableError(false),
+ m_unrecoverableError(false),
m_specialDeferment(false),
m_helperThreadDead(false),
m_loaderBPReceived(false),
@@ -939,7 +939,7 @@ CordbProcess::CordbProcess(ULONG64 clrInstanceId,
m_pShim(pShim),
m_userThreads(11),
m_dataBreakpoints(4),
- m_oddSync(false),
+ m_oddSync(false),
#ifdef FEATURE_INTEROP_DEBUGGING
m_unmanagedThreads(11),
#endif
@@ -951,7 +951,7 @@ CordbProcess::CordbProcess(ULONG64 clrInstanceId,
m_leftSideEventAvailable(NULL),
m_leftSideEventRead(NULL),
#if defined(FEATURE_INTEROP_DEBUGGING)
- m_leftSideUnmanagedWaitEvent(NULL),
+ m_leftSideUnmanagedWaitEvent(NULL),
#endif // FEATURE_INTEROP_DEBUGGING
m_initialized(false),
m_stopRequested(false),
@@ -965,7 +965,7 @@ CordbProcess::CordbProcess(ULONG64 clrInstanceId,
m_lastDispatchedIBEvent(NULL),
m_dispatchingUnmanagedEvent(false),
m_dispatchingOOBEvent(false),
- m_doRealContinueAfterOOBBlock(false),
+ m_doRealContinueAfterOOBBlock(false),
m_state(0),
#endif // FEATURE_INTEROP_DEBUGGING
m_helperThreadId(0),
@@ -1007,8 +1007,8 @@ CordbProcess::CordbProcess(ULONG64 clrInstanceId,
m_pProcess.Assign(this);
#ifdef _DEBUG
- // On Debug builds, we'll ASSERT by default whenever the target appears to be corrupt or
- // otherwise inconsistent (both in DAC and DBI). But we also need the ability to
+ // On Debug builds, we'll ASSERT by default whenever the target appears to be corrupt or
+ // otherwise inconsistent (both in DAC and DBI). But we also need the ability to
// explicitly test corrupt targets.
// Tests should set COMPlus_DbgIgnoreInconsistentTarget=1 to suppress these asserts
// Note that this controls two things:
@@ -1077,19 +1077,19 @@ CordbProcess::~CordbProcess()
// We shouldn't still be in Cordb's list of processes. Unfortunately, our root Cordb object
// may have already been deleted b/c we're at the mercy of ref-counting, so we can't check.
-
+
_ASSERTE(m_sharedAppDomain == NULL);
-
+
m_processMutex.Destroy();
m_StopGoLock.Destroy();
// These handles were cleared in neuter
- _ASSERTE(m_handle == NULL);
+ _ASSERTE(m_handle == NULL);
#if defined(FEATURE_INTEROP_DEBUGGING)
_ASSERTE(m_leftSideUnmanagedWaitEvent == NULL);
#endif // FEATURE_INTEROP_DEBUGGING
_ASSERTE(m_stopWaitEvent == NULL);
-
+
// Set this to mark that we really did cleanup.
}
@@ -1100,7 +1100,7 @@ CordbProcess::~CordbProcess()
// the Cordb object.
//
// Arguments:
-// pCordb - Pointer to the implementation of the owning Cordb object implementing the
+// pCordb - Pointer to the implementation of the owning Cordb object implementing the
// owning ICD interface.
// szProgramName - Name of the program to execute.
// szProgramArgs - Command line arguments for the process.
@@ -1151,7 +1151,7 @@ HRESULT ShimProcess::CreateProcess(
hr = pShim->CreateAndStartWin32ET(pCordb);
IfFailThrow(hr);
- // Call out to newly created Win32-event Thread to create the process.
+ // Call out to newly created Win32-event Thread to create the process.
// If this succeeds, new CordbProcess will add a ref to the ShimProcess
hr = pShim->GetWin32EventThread()->SendCreateProcessEvent(pShim->GetMachineInfo(),
szProgramName,
@@ -1211,7 +1211,7 @@ HRESULT ShimProcess::DebugActiveProcess(
// Indicate that this process was attached to, asopposed to being started under the debugger.
pShim->m_attached = true;
-
+
hr = pShim->CreateAndStartWin32ET(pCordb);
IfFailThrow(hr);
@@ -1232,7 +1232,7 @@ HRESULT ShimProcess::DebugActiveProcess(
// after DebugActiveProcess completes which means we must wait here long enough to have set the debuggee
// bit indicating managed attach is coming.
// However in interop debugging we can't do that because there are debug events which come before the
- // loader breakpoint (which is how far we need to get to set the debuggee bit). If we blocked
+ // loader breakpoint (which is how far we need to get to set the debuggee bit). If we blocked
// DebugActiveProcess there then the debug events would be refering to an ICorDebugProcess that hasn't
// yet been returned to the caller of DebugActiveProcess. Instead, for interop debugging we force the
// native debugger to wait until it gets the loader breakpoint to set the event. Note we can't converge
@@ -1259,7 +1259,7 @@ HRESULT ShimProcess::DebugActiveProcess(
#endif //!FEATURE_DBGIPC_TRANSPORT_DI
}
EX_CATCH_HRESULT(hr);
-
+
// If this succeeds, then process takes ownership of thread. Else we need to kill it.
if (FAILED(hr))
{
@@ -1268,7 +1268,7 @@ HRESULT ShimProcess::DebugActiveProcess(
pShim->Dispose();
}
}
-
+
// Always release our ref to ShimProcess. If the Process was created, then it takes a reference.
return hr;
@@ -1285,29 +1285,29 @@ HRESULT ShimProcess::DebugActiveProcess(
// code:CordbProcess::IsReadyForDetach)
// 3. Caller did code:CordbProcess::NeuterLeftSideResources first
// to clean up left-side resources.
-//
+//
// Notes:
// This could be called multiple times (code:CordbProcess::FlushAll), so
// be sure to null out any potential dangling pointers. State may be rebuilt
// up after each time.
void CordbProcess::NeuterChildren()
-{
+{
_ASSERTE(GetProcessLock()->HasLock());
-
+
// Frees left-side resources. See assumptions above.
m_LeftSideResourceCleanupList.NeuterAndClear(this);
- m_EvalTable.Clear();
-
+ m_EvalTable.Clear();
+
- // Sweep neuter lists.
+ // Sweep neuter lists.
m_ExitNeuterList.NeuterAndClear(this);
m_ContinueNeuterList.NeuterAndClear(this);
m_dataBreakpoints.NeuterAndClear(GetProcessLock());
m_userThreads.NeuterAndClear(GetProcessLock());
-
+
m_pDefaultAppDomain = NULL;
// Frees per-appdomain left-side resources. See assumptions above.
@@ -1349,10 +1349,10 @@ void CordbProcess::Neuter()
// Take the process lock.
RSLockHolder lockHolder(GetProcessLock());
-
+
NeuterChildren();
- // Release the metadata interfaces
+ // Release the metadata interfaces
m_pMetaDispenser.Clear();
@@ -1379,7 +1379,7 @@ void CordbProcess::Neuter()
// W23ET.
if (m_pShim != NULL)
{
- m_pShim->Dispose();
+ m_pShim->Dispose();
m_pShim.Clear();
}
}
@@ -1398,24 +1398,24 @@ void CordbProcess::Neuter()
m_pEventChannel->Delete();
m_pEventChannel = NULL;
}
-
- // Need process lock to clear the patch table
+
+ // Need process lock to clear the patch table
ClearPatchTable();
-
+
CordbProcess::CloseIPCHandles();
CordbBase::Neuter();
-
+
m_cordb.Clear();
// Need to release this reference to ourselves. Other leaf objects may still hold
// strong references back to this CordbProcess object.
_ASSERTE(m_pProcess == this);
- m_pProcess.Clear();
+ m_pProcess.Clear();
}
// Wrapper to return metadata dispenser.
-//
+//
// Notes:
// Does not adjust reference count of dispenser.
// Dispenser is destroyed in code:CordbProcess::Neuter
@@ -1484,7 +1484,7 @@ void CordbProcess::CloseIPCHandles()
// S_OK on success.
//-----------------------------------------------------------------------------
HRESULT ShimProcess::CreateAndStartWin32ET(Cordb * pCordb)
-{
+{
//
// Create the win32 event listening thread
@@ -1524,13 +1524,13 @@ HRESULT ShimProcess::CreateAndStartWin32ET(Cordb * pCordb)
//
// Return Value:
// TRUE - DAC is initialized.
-// FALSE - Not initialized, but can try again later. Common case if
+// FALSE - Not initialized, but can try again later. Common case if
// target has not yet loaded the runtime.
// Throws exception - fatal.
//
// Assumptions:
// Target is stopped by OS, so we can safely inspect it without it moving on us.
-//
+//
// Notes:
// This can be called eagerly to sniff if the LS is initialized.
//
@@ -1545,9 +1545,9 @@ BOOL CordbProcess::TryInitializeDac()
// Target is stopped by OS, so we can safely inspect it without it moving on us.
- // We want to avoid exceptions in the normal case, so we do some pre-checks
+ // We want to avoid exceptions in the normal case, so we do some pre-checks
// to detect failure without relying on exceptions.
- // Can't initialize DAC until mscorwks is loaded. So that's a sanity test.
+ // Can't initialize DAC until mscorwks is loaded. So that's a sanity test.
HRESULT hr = EnsureClrInstanceIdSet();
if (FAILED(hr))
{
@@ -1568,7 +1568,7 @@ BOOL CordbProcess::TryInitializeDac()
// Load & Init DAC, expecting to succeed.
//
// Return Value:
-// Throws on failure.
+// Throws on failure.
//
// Assumptions:
// Caller invokes this at a point where they can expect it to succeed.
@@ -1578,7 +1578,7 @@ BOOL CordbProcess::TryInitializeDac()
// Notes:
// This needs to succeed, and should always succeed (baring a bad installation)
// so we assert on failure paths.
-// This may be called mutliple times.
+// This may be called mutliple times.
//
//---------------------------------------------------------------------------------------
void CordbProcess::InitializeDac()
@@ -1601,8 +1601,8 @@ void CordbProcess::InitializeDac()
{
LOG((LF_CORDB, LL_INFO1000, "Dac already loaded, 0x%p\n", (HMODULE)m_hDacModule));
}
-
- // Always flush dac.
+
+ // Always flush dac.
ForceDacFlush();
}
@@ -1611,7 +1611,7 @@ void CordbProcess::InitializeDac()
// Free DAC resources
//
// Notes:
-// This should clean up state such that code:CordbProcess::InitializeDac could be called again.
+// This should clean up state such that code:CordbProcess::InitializeDac could be called again.
//
//---------------------------------------------------------------------------------------
void CordbProcess::FreeDac()
@@ -1645,12 +1645,12 @@ IEventChannel * CordbProcess::GetEventChannel()
// Mark that the process is being interop-debugged.
//
// Notes:
-// @dbgtodo shim: this should eventually move into the shim or go away.
+// @dbgtodo shim: this should eventually move into the shim or go away.
// It's only to support V2 legacy interop-debugging.
// Called after code:CordbProcess::Init if we want to enable interop debugging.
// This allows us to separate out Interop-debugging flags from the core initialization,
// and paves the way for us to eventually remove it.
-//
+//
// Since we're always on the naitve-pipeline, the Enabling interop debugging just changes
// how the native debug events are being handled. So this must be called after Init, but
// before any events are actually handled.
@@ -1672,7 +1672,7 @@ void CordbProcess::EnableInteropDebugging()
m_state |= PS_WIN32_ATTACHED;
if (GetDCB() != NULL)
{
- GetDCB()->m_rightSideIsWin32Debugger = true;
+ GetDCB()->m_rightSideIsWin32Debugger = true;
UpdateLeftSideDCBField(&(GetDCB()->m_rightSideIsWin32Debugger), sizeof(GetDCB()->m_rightSideIsWin32Debugger));
}
@@ -1702,7 +1702,7 @@ void CordbProcess::EnableInteropDebugging()
HRESULT CordbProcess::Init()
{
INTERNAL_API_ENTRY(this);
-
+
HRESULT hr = S_OK;
BOOL fIsLSStarted = FALSE; // see meaning below.
@@ -1735,13 +1735,13 @@ HRESULT CordbProcess::Init()
m_pMetaDataLocator.Clear();
hr = m_pDACDataTarget->QueryInterface(IID_ICorDebugMetaDataLocator, reinterpret_cast<void **>(&m_pMetaDataLocator));
-
- // Get the metadata dispenser.
+
+ // Get the metadata dispenser.
hr = InternalCreateMetaDataDispenser(IID_IMetaDataDispenserEx, (void **)&m_pMetaDispenser);
- // We statically link in the dispenser. We expect it to succeed, except for OOM, which
+ // We statically link in the dispenser. We expect it to succeed, except for OOM, which
// debugger doesn't yet handle.
- SIMPLIFYING_ASSUMPTION_SUCCEEDED(hr);
+ SIMPLIFYING_ASSUMPTION_SUCCEEDED(hr);
IfFailThrow(hr);
_ASSERTE(m_pMetaDispenser != NULL);
@@ -1764,9 +1764,9 @@ HRESULT CordbProcess::Init()
// Managed debugging is built on the native-pipeline, and that will detect against double-attaches.
// @dbgtodo shim: In V2, LSEA + LSER were used by the LS's helper thread. Now with the V3 pipeline,
- // that helper-thread uses native-debug events. The W32ET gets those events and then uses LSEA, LSER to
+ // that helper-thread uses native-debug events. The W32ET gets those events and then uses LSEA, LSER to
// signal existing RS infrastructure. Eventually get rid of LSEA, LSER completely.
- //
+ //
m_leftSideEventAvailable = WszCreateEvent(NULL, FALSE, FALSE, NULL);
if (m_leftSideEventAvailable == NULL)
@@ -1813,11 +1813,11 @@ HRESULT CordbProcess::Init()
// This means there's an overlap: if we catch it at phase 5, we'll just get
// an extra Startup exception from phase 6, which is safe. This overlap is good
// because it means there's no bad window to do an attach in.
-
+
// fIsLSStarted means before phase 6 (eg, RS should expect a startup exception)
// Determines if the LS is started.
-
+
{
BOOL fReady = TryInitializeDac();
@@ -1827,7 +1827,7 @@ HRESULT CordbProcess::Init()
_ASSERTE(m_pDacPrimitives != NULL);
fIsLSStarted = m_pDacPrimitives->IsLeftSideInitialized();
}
- else
+ else
{
_ASSERTE(m_pDacPrimitives == NULL);
@@ -1836,8 +1836,8 @@ HRESULT CordbProcess::Init()
_ASSERTE(!fIsLSStarted);
}
}
-
-
+
+
if (fIsLSStarted)
{
// Left-side has started up. This is common for Attach cases when managed-code is already running.
@@ -1857,7 +1857,7 @@ HRESULT CordbProcess::Init()
}
else
{
- // In the V3 pipeline case, if we have the DD-interface, then the runtime is loaded
+ // In the V3 pipeline case, if we have the DD-interface, then the runtime is loaded
// and we consider it initialized.
if (IsDacInitialized())
{
@@ -1937,11 +1937,11 @@ void CordbProcess::QueueManagedAttachIfNeeded()
//---------------------------------------------------------------------------------------
// Hook from Shim to request a managed attach IPC event
-//
+//
// Notes:
-// Called by shim after the loader-breakpoint is handled.
+// Called by shim after the loader-breakpoint is handled.
// @dbgtodo sync: ths should go away once the shim can initiate
-// a sync
+// a sync
void CordbProcess::QueueManagedAttachIfNeededWorker()
{
HRESULT hrQueue = S_OK;
@@ -1949,16 +1949,16 @@ void CordbProcess::QueueManagedAttachIfNeededWorker()
// m_fDoDelayedManagedAttached ensures that we only send an Attach event if the LS is actually present.
if (m_fDoDelayedManagedAttached && GetShim()->GetAttached())
{
- RSLockHolder lockHolder(&this->m_processMutex);
- GetDAC()->MarkDebuggerAttachPending();
+ RSLockHolder lockHolder(&this->m_processMutex);
+ GetDAC()->MarkDebuggerAttachPending();
hrQueue = this->QueueManagedAttach();
- }
-
+ }
+
if (m_pShim != NULL)
m_pShim->SetMarkAttachPendingEvent();
-
- IfFailThrow(hrQueue);
+
+ IfFailThrow(hrQueue);
}
//---------------------------------------------------------------------------------------
@@ -1984,19 +1984,19 @@ HRESULT CordbProcess::QueueManagedAttach()
// We don't know what Queue it.
SendAttachProcessWorkItem * pItem = new (nothrow) SendAttachProcessWorkItem(this);
-
+
if (pItem == NULL)
{
return E_OUTOFMEMORY;
}
-
+
this->m_cordb->m_rcEventThread->QueueAsyncWorkItem(pItem);
-
+
return S_OK;
}
// However, we still want to synchronize.
-// @dbgtodo sync: when we hoist attaching, we can send an DB_IPCE_ASYNC_BREAK event instead or Attach
+// @dbgtodo sync: when we hoist attaching, we can send an DB_IPCE_ASYNC_BREAK event instead or Attach
// (for V2 semantics, we still need to synchronize the process)?
void SendAttachProcessWorkItem::Do()
{
@@ -2006,10 +2006,10 @@ void SendAttachProcessWorkItem::Do()
RSLockHolder ch(this->GetProcess()->GetStopGoLock());
DebuggerIPCEvent *event = (DebuggerIPCEvent*) _alloca(CorDBIPC_BUFFER_SIZE);
-
+
// This just acts like an async-break, which will kick off things.
// This will not induce any faked attach events from the VM (like it did in V2).
- // The Left-side will still slip foward allowing the async-break to happen, so
+ // The Left-side will still slip foward allowing the async-break to happen, so
// we may get normal debug events in addition to the sync-complete.
//
// 1. In the common attach case, we should just get a sync-complete.
@@ -2017,12 +2017,12 @@ void SendAttachProcessWorkItem::Do()
GetProcess()->InitAsyncIPCEvent(event, DB_IPCE_ATTACHING, VMPTR_AppDomain::NullPtr());
// This should result in a sync-complete from the Left-side, which will be raised as an exception
- // that the debugger passes into Filter and then internally goes through code:CordbProcess::TriageSyncComplete
+ // that the debugger passes into Filter and then internally goes through code:CordbProcess::TriageSyncComplete
// and that triggers code:CordbRCEventThread::FlushQueuedEvents to be called on the RCET.
// We already pre-queued a fake CreateProcess event.
- // The left-side will also mark itself as attached in response to this event.
- // We explicitly don't mark it as attached from the right-side because we want to let the left-side
+ // The left-side will also mark itself as attached in response to this event.
+ // We explicitly don't mark it as attached from the right-side because we want to let the left-side
// synchronize first (to stop all running threads) before marking the debugger as attached.
LOG((LF_CORDB, LL_INFO1000, "[%x] CP::S: sending attach.\n", GetCurrentThreadId()));
@@ -2042,7 +2042,7 @@ void SendAttachProcessWorkItem::Do()
//
// Notes:
// This does not create the thread object if it's not cached. Caching is unpredictable,
-// and so this may appear to randomly return NULL.
+// and so this may appear to randomly return NULL.
// Callers should prefer code:CordbProcess::LookupOrCreateThread unless they expicitly
// want to check RS state.
CordbThread * CordbProcess::TryLookupThread(VMPTR_Thread vmThread)
@@ -2063,7 +2063,7 @@ CordbThread * CordbProcess::TryLookupThread(VMPTR_Thread vmThread)
//
// Notes:
// OS Thread ID is not fiber-safe, so this is a dangerous function to call.
-// Avoid this as much as possible. Prefer using VMPTR_Thread and
+// Avoid this as much as possible. Prefer using VMPTR_Thread and
// code:CordbProcess::LookupOrCreateThread instead of OS thread IDs.
// See code:CordbThread::GetID for details.
CordbThread * CordbProcess::TryLookupOrCreateThreadByVolatileOSId(DWORD dwThreadId)
@@ -2073,7 +2073,7 @@ CordbThread * CordbProcess::TryLookupOrCreateThreadByVolatileOSId(DWORD dwThread
}
//---------------------------------------------------------------------------------------
-// Lookup a cached CordbThread object by the tid. Returns null if not in the cache (which
+// Lookup a cached CordbThread object by the tid. Returns null if not in the cache (which
// includes unmanged thread)
//
// Arguments:
@@ -2089,7 +2089,7 @@ CordbThread * CordbProcess::TryLookupOrCreateThreadByVolatileOSId(DWORD dwThread
// * OS Thread ID is not fiber-safe, so this is a dangerous function to call.
// * This is juts a Lookup, not LookupOrCreate, so it should only be used by methods
// that care about the RS state (instead of just LS state).
-// Prefer using VMPTR_Thread and code:CordbProcess::LookupOrCreateThread
+// Prefer using VMPTR_Thread and code:CordbProcess::LookupOrCreateThread
//
CordbThread * CordbProcess::TryLookupThreadByVolatileOSId(DWORD dwThreadId)
{
@@ -2109,7 +2109,7 @@ CordbThread * CordbProcess::TryLookupThreadByVolatileOSId(DWORD dwThreadId)
}
// This OS thread ID does not match any managed thread id.
- return NULL;
+ return NULL;
}
//---------------------------------------------------------------------------------------
@@ -2209,12 +2209,12 @@ HRESULT CordbProcess::QueryInterface(REFIID id, void **pInterface)
HRESULT CordbProcess::ProcessStateChanged(CorDebugStateChange eChange)
{
HRESULT hr = S_OK;
- PUBLIC_API_BEGIN(this)
- {
+ PUBLIC_API_BEGIN(this)
+ {
switch(eChange)
{
- case PROCESS_RUNNING:
- FlushProcessRunning();
+ case PROCESS_RUNNING:
+ FlushProcessRunning();
break;
case FLUSH_ALL:
@@ -2235,11 +2235,11 @@ HRESULT CordbProcess::EnumerateHeap(ICorDebugHeapEnum **ppObjects)
{
if (!ppObjects)
return E_POINTER;
-
+
HRESULT hr = S_OK;
PUBLIC_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
if (m_pDacPrimitives->AreGCStructuresValid())
@@ -2252,9 +2252,9 @@ HRESULT CordbProcess::EnumerateHeap(ICorDebugHeapEnum **ppObjects)
{
hr = CORDBG_E_GC_STRUCTURES_INVALID;
}
- }
+ }
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
@@ -2262,17 +2262,17 @@ HRESULT CordbProcess::GetGCHeapInformation(COR_HEAPINFO *pHeapInfo)
{
if (!pHeapInfo)
return E_INVALIDARG;
-
+
HRESULT hr = S_OK;
PUBLIC_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
GetDAC()->GetGCHeapInformation(pHeapInfo);
}
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
@@ -2284,12 +2284,12 @@ HRESULT CordbProcess::EnumerateHeapRegions(ICorDebugHeapSegmentEnum **ppRegions)
HRESULT hr = S_OK;
PUBLIC_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
DacDbiArrayList<COR_SEGMENT> segments;
hr = GetDAC()->GetHeapSegments(&segments);
-
+
if (SUCCEEDED(hr))
{
if (!segments.IsEmpty())
@@ -2305,17 +2305,17 @@ HRESULT CordbProcess::EnumerateHeapRegions(ICorDebugHeapSegmentEnum **ppRegions)
}
}
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
HRESULT CordbProcess::GetObject(CORDB_ADDRESS addr, ICorDebugObjectValue **pObject)
{
HRESULT hr = S_OK;
-
+
PUBLIC_REENTRANT_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
if (!m_pDacPrimitives->IsValidObject(addr))
@@ -2330,22 +2330,22 @@ HRESULT CordbProcess::GetObject(CORDB_ADDRESS addr, ICorDebugObjectValue **pObje
{
RSLockHolder ch(GetProcess()->GetStopGoLock());
RSLockHolder procLock(this->GetProcess()->GetProcessLock());
-
+
CordbAppDomain *cdbAppDomain = NULL;
CordbType *pType = NULL;
hr = GetTypeForObject(addr, &pType, &cdbAppDomain);
-
+
if (SUCCEEDED(hr))
{
_ASSERTE(pType != NULL);
_ASSERTE(cdbAppDomain != NULL);
-
+
DebuggerIPCE_ObjectData objData;
m_pDacPrimitives->GetBasicObjectInfo(addr, ELEMENT_TYPE_CLASS, cdbAppDomain->GetADToken(), &objData);
-
+
NewHolder<CordbObjectValue> pNewObjectValue(new CordbObjectValue(cdbAppDomain, pType, TargetBuffer(addr, (ULONG)objData.objSize), &objData));
hr = pNewObjectValue->Init();
-
+
if (SUCCEEDED(hr))
{
hr = pNewObjectValue->QueryInterface(__uuidof(ICorDebugObjectValue), (void**)pObject);
@@ -2365,11 +2365,11 @@ HRESULT CordbProcess::EnumerateGCReferences(BOOL enumerateWeakReferences, ICorDe
{
if (!ppEnum)
return E_POINTER;
-
+
HRESULT hr = S_OK;
PUBLIC_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
CordbRefEnum *pRefEnum = new CordbRefEnum(this, enumerateWeakReferences);
@@ -2384,11 +2384,11 @@ HRESULT CordbProcess::EnumerateHandles(CorGCReferenceType types, ICorDebugGCRefe
{
if (!ppEnum)
return E_POINTER;
-
+
HRESULT hr = S_OK;
PUBLIC_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
CordbRefEnum *pRefEnum = new CordbRefEnum(this, types);
@@ -2396,7 +2396,7 @@ HRESULT CordbProcess::EnumerateHandles(CorGCReferenceType types, ICorDebugGCRefe
hr = pRefEnum->QueryInterface(IID_ICorDebugGCReferenceEnum, (void**)ppEnum);
}
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
@@ -2410,17 +2410,17 @@ HRESULT CordbProcess::GetTypeID(CORDB_ADDRESS obj, COR_TYPEID *pId)
{
if (pId == NULL)
return E_POINTER;
-
+
HRESULT hr = S_OK;
PUBLIC_API_ENTRY(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(this);
-
+
EX_TRY
{
hr = GetProcess()->GetDAC()->GetTypeID(obj, pId);
}
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
@@ -2428,13 +2428,13 @@ HRESULT CordbProcess::GetTypeForTypeID(COR_TYPEID id, ICorDebugType **ppType)
{
if (ppType == NULL)
return E_POINTER;
-
+
HRESULT hr = S_OK;
-
+
PUBLIC_API_ENTRY(this);
RSLockHolder stopGoLock(this->GetProcess()->GetStopGoLock());
RSLockHolder procLock(this->GetProcess()->GetProcessLock());
-
+
EX_TRY
{
DebuggerIPCE_ExpandedTypeData data;
@@ -2445,7 +2445,7 @@ HRESULT CordbProcess::GetTypeForTypeID(COR_TYPEID id, ICorDebugType **ppType)
if (SUCCEEDED(hr))
hr = type->QueryInterface(IID_ICorDebugType, (void**)ppType);
- }
+ }
EX_CATCH_HRESULT(hr);
return hr;
@@ -2456,12 +2456,12 @@ COM_METHOD CordbProcess::GetArrayLayout(COR_TYPEID id, COR_ARRAY_LAYOUT *pLayout
{
if (pLayout == NULL)
return E_POINTER;
-
+
HRESULT hr = S_OK;
PUBLIC_API_BEGIN(this);
hr = GetProcess()->GetDAC()->GetArrayLayout(id, pLayout);
-
+
PUBLIC_API_END(hr);
return hr;
}
@@ -2470,12 +2470,12 @@ COM_METHOD CordbProcess::GetTypeLayout(COR_TYPEID id, COR_TYPE_LAYOUT *pLayout)
{
if (pLayout == NULL)
return E_POINTER;
-
+
HRESULT hr = S_OK;
PUBLIC_API_BEGIN(this);
-
+
hr = GetProcess()->GetDAC()->GetTypeLayout(id, pLayout);
-
+
PUBLIC_API_END(hr);
return hr;
}
@@ -2484,9 +2484,9 @@ COM_METHOD CordbProcess::GetTypeFields(COR_TYPEID id, ULONG32 celt, COR_FIELD fi
{
HRESULT hr = S_OK;
PUBLIC_API_BEGIN(this);
-
+
hr = GetProcess()->GetDAC()->GetObjectFields(id, celt, fields, pceltNeeded);
-
+
PUBLIC_API_END(hr);
return hr;
}
@@ -2495,7 +2495,7 @@ COM_METHOD CordbProcess::SetWriteableMetadataUpdateMode(WriteableMetadataUpdateM
{
HRESULT hr = S_OK;
PUBLIC_API_BEGIN(this);
-
+
if(flags != LegacyCompatPolicy &&
flags != AlwaysShowUpdates)
{
@@ -2513,7 +2513,7 @@ COM_METHOD CordbProcess::SetWriteableMetadataUpdateMode(WriteableMetadataUpdateM
{
m_writableMetadataUpdateMode = flags;
}
-
+
PUBLIC_API_END(hr);
return hr;
}
@@ -2653,7 +2653,7 @@ COM_METHOD CordbProcess::CreateBreakpoint(CORDB_ADDRESS address, ICorDebugValueB
EX_TRY
{
RSInitHolder<CordbValueBreakpoint> pValueBreakpoint(new CordbValueBreakpoint(m_dataBreakpoints.GetCount(), nullptr, this));
-
+
if (pValueBreakpoint)
{
hr = pValueBreakpoint->QueryInterface(IID_ICorDebugValueBreakpoint, (void**)ppBreakpoint);
@@ -2685,20 +2685,20 @@ HRESULT CordbProcess::GetTypeForObject(CORDB_ADDRESS addr, CordbType **ppType, C
VMPTR_AppDomain appDomain;
VMPTR_Module mod;
VMPTR_DomainFile domainFile;
-
+
HRESULT hr = E_FAIL;
if (GetDAC()->GetAppDomainForObject(addr, &appDomain, &mod, &domainFile))
{
CordbAppDomain *cdbAppDomain = appDomain.IsNull() ? GetSharedAppDomain() : LookupOrCreateAppDomain(appDomain);
-
+
_ASSERTE(cdbAppDomain);
-
+
DebuggerIPCE_ExpandedTypeData data;
GetDAC()->GetObjectExpandedTypeInfo(AllBoxed, appDomain, addr, &data);
CordbType *type = 0;
hr = CordbType::TypeDataToType(cdbAppDomain, &data, &type);
-
+
if (SUCCEEDED(hr))
{
*ppType = type;
@@ -2706,7 +2706,7 @@ HRESULT CordbProcess::GetTypeForObject(CORDB_ADDRESS addr, CordbType **ppType, C
*pAppDomain = cdbAppDomain;
}
}
-
+
return hr;
}
@@ -2738,10 +2738,10 @@ void CordbRefEnum::Neuter()
}
EX_CATCH
{
- _ASSERTE(!"Hit an error freeing a ref walk.");
+ _ASSERTE(!"Hit an error freeing a ref walk.");
}
EX_END_CATCH(SwallowAllExceptions)
-
+
CordbBase::Neuter();
}
@@ -2749,7 +2749,7 @@ HRESULT CordbRefEnum::QueryInterface(REFIID riid, void **ppInterface)
{
if (ppInterface == NULL)
return E_INVALIDARG;
-
+
if (riid == IID_ICorDebugGCReferenceEnum)
{
*ppInterface = static_cast<ICorDebugGCReferenceEnum*>(this);
@@ -2786,7 +2786,7 @@ HRESULT CordbRefEnum::Reset()
}
}
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
@@ -2807,52 +2807,52 @@ HRESULT CordbRefEnum::Next(ULONG celt, COR_GC_REFERENCE refs[], ULONG *pceltFetc
{
if (refs == NULL || pceltFetched == NULL)
return E_POINTER;
-
+
CordbProcess *process = GetProcess();
HRESULT hr = S_OK;
-
+
PUBLIC_API_ENTRY(this);
FAIL_IF_NEUTERED(this);
ATT_REQUIRE_STOPPED_MAY_FAIL(process);
-
+
RSLockHolder procLockHolder(process->GetProcessLock());
-
+
EX_TRY
{
if (!mRefHandle)
hr = process->GetDAC()->CreateRefWalk(&mRefHandle, mEnumStacksFQ, mEnumStacksFQ, mHandleMask);
-
+
if (SUCCEEDED(hr))
{
DacGcReference dacRefs[32];
ULONG toFetch = _countof(dacRefs);
ULONG total = 0;
-
+
for (ULONG c = 0; SUCCEEDED(hr) && c < (celt/_countof(dacRefs) + 1); ++c)
{
// Fetch 32 references at a time, the last time, only fetch the remainder (that is, if
// the user didn't fetch a multiple of 32).
if (c == celt/_countof(dacRefs))
toFetch = celt % _countof(dacRefs);
-
+
ULONG fetched = 0;
hr = process->GetDAC()->WalkRefs(mRefHandle, toFetch, dacRefs, &fetched);
-
+
if (SUCCEEDED(hr))
{
for (ULONG i = 0; i < fetched; ++i)
{
CordbAppDomain *pDomain = process->LookupOrCreateAppDomain(dacRefs[i].vmDomain);
-
+
ICorDebugAppDomain *pAppDomain;
ICorDebugValue *pOutObject = NULL;
if (dacRefs[i].pObject & 1)
{
dacRefs[i].pObject &= ~1;
ICorDebugObjectValue *pObjValue = NULL;
-
+
hr = process->GetObject(dacRefs[i].pObject, &pObjValue);
-
+
if (SUCCEEDED(hr))
{
hr = pObjValue->QueryInterface(IID_ICorDebugValue, (void**)&pOutObject);
@@ -2865,32 +2865,32 @@ HRESULT CordbRefEnum::Next(ULONG celt, COR_GC_REFERENCE refs[], ULONG *pceltFetc
IfFailThrow(CordbReferenceValue::BuildFromGCHandle(pDomain,
dacRefs[i].objHnd,
&tmpValue));
-
+
if (SUCCEEDED(hr))
{
hr = tmpValue->QueryInterface(IID_ICorDebugValue, (void**)&pOutObject);
tmpValue->Release();
}
}
-
+
if (SUCCEEDED(hr) && pDomain)
{
hr = pDomain->QueryInterface(IID_ICorDebugAppDomain, (void**)&pAppDomain);
}
-
+
if (FAILED(hr))
break;
-
+
refs[total].Domain = pAppDomain;
refs[total].Location = pOutObject;
refs[total].Type = (CorGCReferenceType)dacRefs[i].dwType;
refs[total].ExtraData = dacRefs[i].i64ExtraData;
-
+
total++;
}
}
}
-
+
*pceltFetched = total;
}
}
@@ -2912,7 +2912,7 @@ HRESULT CordbHeapEnum::QueryInterface(REFIID riid, void **ppInterface)
{
if (ppInterface == NULL)
return E_INVALIDARG;
-
+
if (riid == IID_ICorDebugHeapEnum)
{
*ppInterface = static_cast<ICorDebugHeapEnum*>(this);
@@ -2954,7 +2954,7 @@ void CordbHeapEnum::Clear()
}
EX_CATCH
{
- _ASSERTE(!"Hit an error freeing the heap walk.");
+ _ASSERTE(!"Hit an error freeing the heap walk.");
}
EX_END_CATCH(SwallowAllExceptions)
}
@@ -2989,17 +2989,17 @@ HRESULT CordbHeapEnum::Next(ULONG celt, COR_HEAPOBJECT objects[], ULONG *pceltFe
hr = GetProcess()->GetDAC()->WalkHeap(mHeapHandle, celt, objects, &fetched);
_ASSERTE(fetched <= celt);
}
-
+
if (SUCCEEDED(hr))
{
// Return S_FALSE if we've reached the end of the enum.
if (fetched < celt)
hr = S_FALSE;
}
- }
+ }
EX_CATCH_HRESULT(hr);
- // Set the fetched parameter to reflect the number of elements (if any)
+ // Set the fetched parameter to reflect the number of elements (if any)
// that were successfully saved to "objects"
if (pceltFetched)
*pceltFetched = fetched;
@@ -3009,33 +3009,33 @@ HRESULT CordbHeapEnum::Next(ULONG celt, COR_HEAPOBJECT objects[], ULONG *pceltFe
//---------------------------------------------------------------------------------------
// Flush state for when the process starts running.
-//
+//
// Notes:
// Helper for code:CordbProcess::ProcessStateChanged.
-// Since ICD Arrowhead does not own the eventing pipeline, it needs the debugger to
+// Since ICD Arrowhead does not own the eventing pipeline, it needs the debugger to
// notifying it of when the process is running again. This is like the counterpart
// to code:CordbProcess::Filter
void CordbProcess::FlushProcessRunning()
{
_ASSERTE(GetProcessLock()->HasLock());
-
+
// Update the continue counter.
m_continueCounter++;
// Safely dispose anything that should be neutered on continue.
- MarkAllThreadsDirty();
+ MarkAllThreadsDirty();
ForceDacFlush();
}
//---------------------------------------------------------------------------------------
// Flush all cached state and bring us back to "cold startup"
-//
+//
// Notes:
// Helper for code:CordbProcess::ProcessStateChanged.
// This is used if the data-target changes underneath us in a way that is
// not consistent with the process running forward. For example, if for
// a time-travel debugger, the data-target may flow "backwards" in time.
-//
+//
void CordbProcess::FlushAll()
{
CONTRACTL
@@ -3054,7 +3054,7 @@ void CordbProcess::FlushAll()
hr = IsReadyForDetach();
IfFailThrow(hr);
- // Check for outstanding CordbHandle values.
+ // Check for outstanding CordbHandle values.
if (OutstandingHandles())
{
ThrowHR(CORDBG_E_DETACH_FAILED_OUTSTANDING_TARGET_RESOURCES);
@@ -3066,7 +3066,7 @@ void CordbProcess::FlushAll()
// If we detach before the CLR is loaded into the debuggee, then we can no-op a lot of work.
// We sure can't be sending IPC events to the LS before it exists.
- NeuterChildren();
+ NeuterChildren();
}
//---------------------------------------------------------------------------------------
@@ -3090,14 +3090,14 @@ void CordbProcess::FlushAll()
// in V3, especially w.r.t to an attach bit.
//---------------------------------------------------------------------------------------
HRESULT CordbProcess::Detach()
-{
+{
PUBLIC_API_ENTRY(this);
FAIL_IF_NEUTERED(this);
if (IsInteropDebugging())
{
- return CORDBG_E_INTEROP_NOT_SUPPORTED;
+ return CORDBG_E_INTEROP_NOT_SUPPORTED;
}
@@ -3108,7 +3108,7 @@ HRESULT CordbProcess::Detach()
// @todo- why can't we enforce that the managed event Q is drained?
ATT_REQUIRE_SYNCED_OR_NONINIT_MAY_FAIL(this);
-
+
hr = IsReadyForDetach();
if (FAILED(hr))
{
@@ -3121,13 +3121,13 @@ HRESULT CordbProcess::Detach()
RSSmartPtr<CordbProcess> pRef(this);
-
+
LOG((LF_CORDB, LL_INFO1000, "CP::Detach - beginning\n"));
if (m_pShim == NULL) // This API is moved off to the shim
{
-
- // This is still invasive.
- // Ignore failures. This will fail for a non-invasive target.
+
+ // This is still invasive.
+ // Ignore failures. This will fail for a non-invasive target.
if (IsDacInitialized())
{
HRESULT hrIgnore = S_OK;
@@ -3139,10 +3139,10 @@ HRESULT CordbProcess::Detach()
}
}
else
- {
+ {
EX_TRY
{
- DetachShim();
+ DetachShim();
}
EX_CATCH_HRESULT(hr);
}
@@ -3156,7 +3156,7 @@ HRESULT CordbProcess::Detach()
}
// Free up key left-side resources
-//
+//
// Called on detach
// This does key neutering of objects that hold left-side resources and require
// preemptively freeing the resources.
@@ -3164,24 +3164,24 @@ HRESULT CordbProcess::Detach()
void CordbProcess::NeuterChildrenLeftSideResources()
{
_ASSERTE(GetStopGoLock()->HasLock());
-
+
_ASSERTE(!GetProcessLock()->HasLock());
RSLockHolder lockHolder(GetProcessLock());
-
+
// Need process-lock to operate on hashtable, but can't yet Neuter under process-lock,
// so we have to copy the contents to an auxilary list which we can then traverse outside the lock.
RSPtrArray<CordbAppDomain> listAppDomains;
m_appDomains.CopyToArray(&listAppDomains);
-
-
+
+
// Must not hold process lock so that we can be safe to send IPC events
// to cleanup left-side resources.
lockHolder.Release();
_ASSERTE(!GetProcessLock()->HasLock());
- // Frees left-side resources. This may send IPC events.
+ // Frees left-side resources. This may send IPC events.
// This will make normal neutering a nop.
m_LeftSideResourceCleanupList.NeuterLeftSideResourcesAndClear(this);
@@ -3191,20 +3191,20 @@ void CordbProcess::NeuterChildrenLeftSideResources()
// CordbHandleValue is in the appdomain exit list, and that needs
// to send an IPC event to cleanup and release the handle from
- // the GCs handle table.
+ // the GCs handle table.
pAppDomain->GetSweepableExitNeuterList()->NeuterLeftSideResourcesAndClear(this);
}
listAppDomains.Clear();
-
+
}
//---------------------------------------------------------------------------------------
// Detach the Debugger from the LS process for the V2 case
-//
+//
// Assumptions:
// This will NeuterChildren(), caller will do the real Neuter()
// Caller has already ensured that detach is safe.
-//
+//
// @dbgtodo attach-bit: this should be moved into the shim; need
// to figure out semantics for freeing left-side resources (especially GC
// handles) on detach.
@@ -3217,7 +3217,7 @@ void CordbProcess::DetachShim()
// If we detach before the CLR is loaded into the debuggee, then we can no-op a lot of work.
// We sure can't be sending IPC events to the LS before it exists.
if (m_initialized)
- {
+ {
// The managed event queue is not necessarily drained. Cordbg could call detach between any callback.
// While the process is still stopped, neuter all of our children.
// This will make our Neuter() a nop and saves the W32ET from having to do dangerous work.
@@ -3238,7 +3238,7 @@ void CordbProcess::DetachShim()
else
{
// @dbgtodo attach-bit: push this up, once detach IPC event is hoisted.
- RSLockHolder lockHolder(GetProcessLock());
+ RSLockHolder lockHolder(GetProcessLock());
// Shouldn't have any appdomains.
(void)hashFind; //prevent "unused variable" error from GCC
@@ -3267,7 +3267,7 @@ void CordbProcess::DetachShim()
m_detached = true;
}
IfFailThrow(hr);
-
+
// Now that all complicated cleanup is done, caller can do a final neuter.
// This will implicitly stop our Win32 event thread as well.
@@ -3361,7 +3361,7 @@ HRESULT CordbProcess::Terminate(unsigned int exitCode)
// @dbgtodo shutdown: eventually, all of Terminate() will be in the Shim.
- // Free all the remaining events. Since this will call into the shim, do this outside of any locks.
+ // Free all the remaining events. Since this will call into the shim, do this outside of any locks.
// (ATT_ takes locks).
DeleteQueuedEvents();
@@ -3401,7 +3401,7 @@ HRESULT CordbProcess::Terminate(unsigned int exitCode)
//
// Note that on Windows, the process isn't really terminated until we receive the EXIT_PROCESS_DEBUG_EVENT.
// Before then, we can still still access the debuggee's address space. On the other, for Mac debugging,
- // the process can die any time after this call, and so we can no longer call into the DAC.
+ // the process can die any time after this call, and so we can no longer call into the DAC.
GetShim()->GetNativePipeline()->TerminateProcess(exitCode);
// We just call Continue() so that the debugger doesn't have to. (It's arguably odd
@@ -3431,8 +3431,8 @@ HRESULT CordbProcess::GetID(DWORD *pdwProcessId)
{
// This shouldn't be used in V3 paths. Normally, we can enforce that by checking against
// m_pShim. However, this API can be called after being neutered, in which case m_pShim is cleared.
- // So check against 0 instead.
- if (m_id == 0)
+ // So check against 0 instead.
+ if (m_id == 0)
{
*pdwProcessId = 0;
ThrowHR(E_NOTIMPL);
@@ -3512,11 +3512,11 @@ HRESULT CordbProcess::StopInternal(DWORD dwTimeout, VMPTR_AppDomain pAppDomainTo
// Stop + Continue are executed under the Stop-Go lock. This makes them atomic.
// We'll toggle the process-lock (b/c we communicate w/ the W32et, so just the process-lock is
// not sufficient to make this atomic).
- // It's ok to take this lock before checking if the CordbProcess has been neutered because
+ // It's ok to take this lock before checking if the CordbProcess has been neutered because
// the lock is destroyed in the dtor after neutering.
RSLockHolder ch(&m_StopGoLock);
- // Check if this CordbProcess has been neutered under the SG lock.
+ // Check if this CordbProcess has been neutered under the SG lock.
// Otherwise it's possible to race with Detach() and Terminate().
FAIL_IF_NEUTERED(this);
CORDBFailIfOnWin32EventThread(this);
@@ -3756,7 +3756,7 @@ HRESULT CordbProcess::Continue(BOOL fIsOutOfBand)
if (m_pShim == NULL) // This API is moved off to the shim
{
// bias towards failing with CORDBG_E_NUETERED.
- FAIL_IF_NEUTERED(this);
+ FAIL_IF_NEUTERED(this);
return E_NOTIMPL;
}
@@ -3985,7 +3985,7 @@ HRESULT CordbProcess::ContinueInternal(BOOL fIsOutOfBand)
SetSynchronized(false);
// If the callback queue is not empty, then the LS is not actually continuing, and so our cached
- // state is still valid.
+ // state is still valid.
// If we're in the middle of dispatching a managed event, then simply return. This indicates to HandleRCEvent
// that the user called Continue and HandleRCEvent will dispatch the next queued event. But if Continue was
@@ -4032,7 +4032,7 @@ HRESULT CordbProcess::ContinueInternal(BOOL fIsOutOfBand)
// may send events.
Unlock();
- // This may send IPC events.
+ // This may send IPC events.
// This will make normal neutering a nop.
// This will toggle the process lock.
m_LeftSideResourceCleanupList.SweepNeuterLeftSideResources(this);
@@ -4055,9 +4055,9 @@ HRESULT CordbProcess::ContinueInternal(BOOL fIsOutOfBand)
// CordbHandleValue is in the appdomain exit list, and that needs
// to send an IPC event to cleanup and release the handle from
- // the GCs handle table.
+ // the GCs handle table.
// This will toggle the process lock.
- pAppDomain->GetSweepableExitNeuterList()->SweepNeuterLeftSideResources(this);
+ pAppDomain->GetSweepableExitNeuterList()->SweepNeuterLeftSideResources(this);
}
listAppDomains.Clear();
@@ -4178,7 +4178,7 @@ HRESULT CordbProcess::ContinueInternal(BOOL fIsOutOfBand)
SetSynchronized(false);
SetSyncCompleteRecv(false);
- // we're no longer in a callback, so set flags to indicate that we've finished.
+ // we're no longer in a callback, so set flags to indicate that we've finished.
GetShim()->NotifyOnContinue();
// Flush will update state, including continue counter and marking
@@ -4325,7 +4325,7 @@ HRESULT CordbProcess::HasQueuedCallbacks(ICorDebugThread *pThread,
*pbQueued = m_pShim->GetManagedEventQueue()->HasQueuedCallbacks(pThread);
return S_OK;
}
- return E_NOTIMPL; // Not implemented in V3.
+ return E_NOTIMPL; // Not implemented in V3.
}
//
@@ -4373,7 +4373,7 @@ class ShimAssemblyCallbackData
{
public:
// Ctor to intialize callback data
- //
+ //
// Arguments:
// pAppDomain - appdomain that the assemblies are in.
// pAssemblies - preallocated array of smart pointers to hold assemblies
@@ -4397,10 +4397,10 @@ public:
{
pAssemblies[i].Clear();
}
- }
+ }
// Dtor
- //
+ //
// Notes:
// This can assert end-of-enumeration invariants.
~ShimAssemblyCallbackData()
@@ -4408,13 +4408,13 @@ public:
// Ensure that we went through all assemblies.
_ASSERTE(m_index == m_countElements);
}
-
+
// Callback invoked from DAC enumeration.
- //
+ //
// arguments:
// vmDomainAssembly - VMPTR for assembly
// pData - a 'this' pointer
- //
+ //
static void Callback(VMPTR_DomainAssembly vmDomainAssembly, void * pData)
{
ShimAssemblyCallbackData * pThis = static_cast<ShimAssemblyCallbackData *> (pData);
@@ -4426,7 +4426,7 @@ public:
}
// Set the current index in the table and increment the cursor.
- //
+ //
// Arguments:
// pAssembly - assembly from DAC enumerator
void SetAndMoveNext(CordbAssembly * pAssembly)
@@ -4436,8 +4436,8 @@ public:
if (m_index >= m_countElements)
{
// Enumerating the assemblies in the target should be fixed since
- // the target is not running.
- // We should never get here unless the target is unstable.
+ // the target is not running.
+ // We should never get here unless the target is unstable.
// The caller (the shim) pre-allocated the table of assemblies.
m_pProcess->TargetConsistencyCheck(!"Target changed assembly count");
return;
@@ -4457,31 +4457,31 @@ protected:
//---------------------------------------------------------------------------------------
// Shim Helper to enumerate the assemblies in the load-order
-//
+//
// Arguments:
// pAppdomain - non-null appdomain to enumerate assemblies.
// pAssemblies - caller pre-allocated array to hold assemblies
// countAssemblies - size of the array.
-//
+//
// Notes:
// Caller preallocated array (likely from ICorDebugAssemblyEnum::GetCount),
// and now this function fills in the assemblies in the order they were
// loaded.
-//
+//
// The target should be stable, such that the number of assemblies in the
// target is stable, and therefore countAssemblies as determined by the
// shim via ICorDebugAssemblyEnum::GetCount should match the number of
-// assemblies enumerated here.
-//
-// Called by code:ShimProcess::QueueFakeAttachEvents.
+// assemblies enumerated here.
+//
+// Called by code:ShimProcess::QueueFakeAttachEvents.
// This provides the assemblies in load-order. In contrast,
// ICorDebugAppDomain::EnumerateAssemblies is a random order. The shim needs
// load-order to match Whidbey semantics for dispatching fake load-assembly
// callbacks on attach. The debugger then uses the order
// in its module display window.
-//
+//
void CordbProcess::GetAssembliesInLoadOrder(
- ICorDebugAppDomain * pAppDomain,
+ ICorDebugAppDomain * pAppDomain,
RSExtSmartPtr<ICorDebugAssembly>* pAssemblies,
ULONG countAssemblies)
{
@@ -4500,7 +4500,7 @@ void CordbProcess::GetAssembliesInLoadOrder(
ShimAssemblyCallbackData::Callback,
&data); // user data
- // pAssemblies array has now been updated.
+ // pAssemblies array has now been updated.
}
// Callback data for code:CordbProcess::GetModulesInLoadOrder
@@ -4508,7 +4508,7 @@ class ShimModuleCallbackData
{
public:
// Ctor to intialize callback data
- //
+ //
// Arguments:
// pAssembly - assembly that the Modules are in.
// pModules - preallocated array of smart pointers to hold Modules
@@ -4532,10 +4532,10 @@ public:
{
pModules[i].Clear();
}
- }
+ }
// Dtor
- //
+ //
// Notes:
// This can assert end-of-enumeration invariants.
~ShimModuleCallbackData()
@@ -4543,13 +4543,13 @@ public:
// Ensure that we went through all Modules.
_ASSERTE(m_index == m_countElements);
}
-
+
// Callback invoked from DAC enumeration.
- //
+ //
// arguments:
// vmDomainFile - VMPTR for Module
// pData - a 'this' pointer
- //
+ //
static void Callback(VMPTR_DomainFile vmDomainFile, void * pData)
{
ShimModuleCallbackData * pThis = static_cast<ShimModuleCallbackData *> (pData);
@@ -4561,7 +4561,7 @@ public:
}
// Set the current index in the table and increment the cursor.
- //
+ //
// Arguments:
// pModule - Module from DAC enumerator
void SetAndMoveNext(CordbModule * pModule)
@@ -4571,8 +4571,8 @@ public:
if (m_index >= m_countElements)
{
// Enumerating the Modules in the target should be fixed since
- // the target is not running.
- // We should never get here unless the target is unstable.
+ // the target is not running.
+ // We should never get here unless the target is unstable.
// The caller (the shim) pre-allocated the table of Modules.
m_pProcess->TargetConsistencyCheck(!"Target changed Module count");
return;
@@ -4592,22 +4592,22 @@ protected:
//---------------------------------------------------------------------------------------
// Shim Helper to enumerate the Modules in the load-order
-//
+//
// Arguments:
// pAppdomain - non-null appdomain to enumerate Modules.
// pModules - caller pre-allocated array to hold Modules
// countModules - size of the array.
-//
+//
// Notes:
// Caller preallocated array (likely from ICorDebugModuleEnum::GetCount),
// and now this function fills in the Modules in the order they were
// loaded.
-//
+//
// The target should be stable, such that the number of Modules in the
// target is stable, and therefore countModules as determined by the
// shim via ICorDebugModuleEnum::GetCount should match the number of
-// Modules enumerated here.
-//
+// Modules enumerated here.
+//
// Called by code:ShimProcess::QueueFakeAssemblyAndModuleEvent.
// This provides the Modules in load-order. In contrast,
// ICorDebugAssembly::EnumerateModules is a random order. The shim needs
@@ -4616,21 +4616,21 @@ protected:
// gets a LodModule callback before any secondary modules. For dynamic
// modules, this is necessary for operations on the secondary module
// that rely on manifest metadata (eg. GetSimpleName).
-//
-// @dbgtodo : This is almost identical to GetAssembliesInLoadOrder, and
-// (together wih the CallbackData classes) seems a HUGE amount of code and
+//
+// @dbgtodo : This is almost identical to GetAssembliesInLoadOrder, and
+// (together wih the CallbackData classes) seems a HUGE amount of code and
// complexity for such a simple thing. We also have extra code to order
// AppDomains and Threads. We should try and rip all of this extra complexity
// out, and replace it with better data structures for storing these items.
-// Eg., if we used std::map, we could have efficient lookups and ordered
+// Eg., if we used std::map, we could have efficient lookups and ordered
// enumerations. However, we do need to be careful about exposing new invariants
// through ICorDebug that customers may depend on, which could place a long-term
// compatibility burden on us. We could have a simple generic data structure
// (eg. built on std::hash_map and std::list) which provided efficient look-up
// and both in-order and random enumeration.
-//
+//
void CordbProcess::GetModulesInLoadOrder(
- ICorDebugAssembly * pAssembly,
+ ICorDebugAssembly * pAssembly,
RSExtSmartPtr<ICorDebugModule>* pModules,
ULONG countModules)
{
@@ -4649,13 +4649,13 @@ void CordbProcess::GetModulesInLoadOrder(
ShimModuleCallbackData::Callback,
&data); // user data
- // pModules array has now been updated.
+ // pModules array has now been updated.
}
//---------------------------------------------------------------------------------------
// Callback to count the number of enumerations in a process.
-//
+//
// Arguments:
// id - the connection id.
// pName - name of the connection
@@ -4664,14 +4664,14 @@ void CordbProcess::GetModulesInLoadOrder(
// Notes:
// Helper function for code:CordbProcess::QueueFakeConnectionEvents
//
-// static
+// static
void CordbProcess::CountConnectionsCallback(DWORD id, LPCWSTR pName, void * pUserData)
{
}
//---------------------------------------------------------------------------------------
// Callback to enumerate all the connections in a process.
-//
+//
// Arguments:
// id - the connection id.
// pName - name of the connection
@@ -4680,7 +4680,7 @@ void CordbProcess::CountConnectionsCallback(DWORD id, LPCWSTR pName, void * pUse
// Notes:
// Helper function for code:CordbProcess::QueueFakeConnectionEvents
//
-// static
+// static
void CordbProcess::EnumerateConnectionsCallback(DWORD id, LPCWSTR pName, void * pUserData)
{
}
@@ -4755,9 +4755,9 @@ void CordbProcess::DispatchRCEvent()
// This gives us delayed continues w/ no extra state flags.
- // The debugger may call Detach() immediately after it returns from the callback, but before this thread returns
+ // The debugger may call Detach() immediately after it returns from the callback, but before this thread returns
// from this function. Thus after we execute the callbacks, it's possible the CordbProcess object has been neutered.
-
+
// Since we're already sycned, the Stop from the holder here is practically a nop that just bumps up a count.
// Create an extra scope for the StopContinueHolder.
{
@@ -4769,13 +4769,13 @@ void CordbProcess::DispatchRCEvent()
}
HRESULT hrCallback = S_OK;
- // It's possible a ICorDebugProcess::Detach() may have occurred by now.
+ // It's possible a ICorDebugProcess::Detach() may have occurred by now.
{
// @dbgtodo shim: eventually the entire RCET should be considered outside the RS.
- PUBLIC_CALLBACK_IN_THIS_SCOPE0_NO_LOCK(this);
+ PUBLIC_CALLBACK_IN_THIS_SCOPE0_NO_LOCK(this);
- // Snag the first event off the queue.
+ // Snag the first event off the queue.
// Holder will call Delete, which will invoke virtual Dtor that will release ICD objects.
// Since these are external refs, we want to do it while "outside" the RS.
NewHolder<ManagedEvent> pEvent(pShim->DequeueManagedEvent());
@@ -4796,7 +4796,7 @@ void CordbProcess::DispatchRCEvent()
m_pDBGLastIPCEventType = pEvent->GetDebugCookie();
#endif
- ManagedEvent::DispatchArgs args(m_cordb->m_managedCallback, m_cordb->m_managedCallback2, m_cordb->m_managedCallback3, m_cordb->m_managedCallback4);
+ ManagedEvent::DispatchArgs args(m_cordb->m_managedCallback, m_cordb->m_managedCallback2, m_cordb->m_managedCallback3, m_cordb->m_managedCallback4);
{
// Release lock around the dispatch of the event
@@ -4807,7 +4807,7 @@ void CordbProcess::DispatchRCEvent()
// This dispatches almost directly into the user's callbacks.
// It does not update any RS state.
hrCallback = pEvent->Dispatch(args);
- }
+ }
EX_CATCH_HRESULT(hrCallback);
}
}
@@ -4819,18 +4819,18 @@ void CordbProcess::DispatchRCEvent()
{
ContinueInternal(FALSE);
}
-
-
+
+
} // forces Continue to be called
- Lock();
+ Lock();
};
#ifdef _DEBUG
//---------------------------------------------------------------------------------------
// Debug-only callback to ensure that an appdomain is not available after the ExitAppDomain event.
-//
+//
// Arguments:
// vmAppDomain - appdomain from enumeration
// pUserData - pointer to a DbgAssertAppDomainDeletedData which contains the VMAppDomain that was just deleted.
@@ -4842,23 +4842,23 @@ void CordbProcess::DbgAssertAppDomainDeletedCallback(VMPTR_AppDomain vmAppDomain
INTERNAL_DAC_CALLBACK(pCallbackData->m_pThis);
VMPTR_AppDomain vmAppDomainDeleted = pCallbackData->m_vmAppDomainDeleted;
- CONSISTENCY_CHECK_MSGF((vmAppDomain != vmAppDomainDeleted),
- ("An ExitAppDomain event was sent for appdomain, but it still shows up in the enumeration.\n vmAppDomain=%p\n",
+ CONSISTENCY_CHECK_MSGF((vmAppDomain != vmAppDomainDeleted),
+ ("An ExitAppDomain event was sent for appdomain, but it still shows up in the enumeration.\n vmAppDomain=%p\n",
VmPtrToCookie(vmAppDomainDeleted)));
}
//---------------------------------------------------------------------------------------
// Debug-only helper to Assert that VMPTR is actually removed.
-//
+//
// Arguments:
-// vmAppDomainDeleted - vmptr of appdomain that we just got exit event for.
+// vmAppDomainDeleted - vmptr of appdomain that we just got exit event for.
// This should not be discoverable from the RS.
-//
+//
// Notes:
// See code:IDacDbiInterface#Enumeration for rules that we're asserting.
// Once the exit appdomain event is dispatched, the appdomain should not be discoverable by the RS.
-// Else the RS may use the AppDomain* after it's deleted.
-// This asserts that the AppDomain* is not discoverable.
+// Else the RS may use the AppDomain* after it's deleted.
+// This asserts that the AppDomain* is not discoverable.
//
// Since this is a debug-only function, it should have no side-effects.
void CordbProcess::DbgAssertAppDomainDeleted(VMPTR_AppDomain vmAppDomainDeleted)
@@ -4882,24 +4882,24 @@ void CordbProcess::DbgAssertAppDomainDeleted(VMPTR_AppDomain vmAppDomainDeleted)
// pCallback1 - callback object to dispatch on (for V1 callbacks)
// pCallback2 - 2nd callback object to dispatch on (for new V2 callbacks)
// pCallback3 - 3rd callback object to dispatch on (for new V4 callbacks)
-//
+//
//
// Returns:
-// Nothing. Throws on error.
-//
+// Nothing. Throws on error.
+//
// Notes:
// Generally, this will dispatch exactly 1 callback. It may dispatch 0 callbacks if there is an error
-// or in other corner cases (documented within the dispatch code below).
+// or in other corner cases (documented within the dispatch code below).
// Errors could occur because:
// - the event is corrupted (exceptional case)
// - the RS is corrupted / OOM (exceptional case)
// Exception errors here will propogate back to the Filter() call, and there's not really anything
// a debugger can do about an error here (perhaps report it to the user).
-// Errors must leave IcorDebug in a consistent state.
+// Errors must leave IcorDebug in a consistent state.
//
// This is dispatched directly on the Win32Event Thread in response to calling Filter.
// Therefore, this can't send any IPC events (Not an issue once everything is DAC-ized).
-// A V2 shim can provide a proxy calllack that takes these events and queues them and
+// A V2 shim can provide a proxy calllack that takes these events and queues them and
// does the real dispatch to the user to emulate V2 semantics.
//
#ifdef _PREFAST_
@@ -4907,9 +4907,9 @@ void CordbProcess::DbgAssertAppDomainDeleted(VMPTR_AppDomain vmAppDomainDeleted)
#pragma warning(disable:21000) // Suppress PREFast warning about overly large function
#endif
void CordbProcess::RawDispatchEvent(
- DebuggerIPCEvent * pEvent,
+ DebuggerIPCEvent * pEvent,
RSLockHolder * pLockHolder,
- ICorDebugManagedCallback * pCallback1,
+ ICorDebugManagedCallback * pCallback1,
ICorDebugManagedCallback2 * pCallback2,
ICorDebugManagedCallback3 * pCallback3,
ICorDebugManagedCallback4 * pCallback4)
@@ -4936,17 +4936,17 @@ void CordbProcess::RawDispatchEvent(
// so if this flag is set, EP will wait on the miscWaitEvent (which will
// get set in FlushQueuedEvents when we return from here) and let us finish here.
//
- StartEventDispatch(pEvent->type);
+ StartEventDispatch(pEvent->type);
// Keep strong references to these objects in case a callback deletes them from underneath us.
RSSmartPtr<CordbAppDomain> pAppDomain;
CordbThread * pThread = NULL;
-
+
// Get thread that this event is on. In attach scenarios, this may be the first time ICorDebug has seen this thread.
if (!pEvent->vmThread.IsNull())
{
- pThread = LookupOrCreateThread(pEvent->vmThread);
+ pThread = LookupOrCreateThread(pEvent->vmThread);
}
if (!pEvent->vmAppDomain.IsNull())
@@ -4955,7 +4955,7 @@ void CordbProcess::RawDispatchEvent(
}
DWORD dwVolatileThreadId = 0;
- if (pThread != NULL)
+ if (pThread != NULL)
{
dwVolatileThreadId = pThread->GetUniqueId();
}
@@ -4968,7 +4968,7 @@ void CordbProcess::RawDispatchEvent(
{
// It shouldn't be possible for us to see an exited AppDomain here
_ASSERTE( !pAppDomain->IsNeutered() );
-
+
pThread->m_pAppDomain = pAppDomain;
}
@@ -4976,7 +4976,7 @@ void CordbProcess::RawDispatchEvent(
_ASSERTE(pCallback1 != NULL);
_ASSERTE(pCallback2 != NULL);
_ASSERTE(pCallback3 != NULL);
-
+ _ASSERTE(pCallback4 != NULL);
STRESS_LOG1(LF_CORDB, LL_EVERYTHING, "Pre-Dispatch IPC event: %s\n", IPCENames::GetName(pEvent->type));
@@ -4994,11 +4994,11 @@ void CordbProcess::RawDispatchEvent(
_ASSERTE(pThread != NULL);
_ASSERTE(pAppDomain != NULL);
- // Find the breakpoint object on this side.
+ // Find the breakpoint object on this side.
CordbBreakpoint *pBreakpoint = NULL;
// We've found cases out in the wild where we get this event on a thread we don't recognize.
- // We're not sure how this happens. Add a runtime check to protect ourselves to avoid the
+ // We're not sure how this happens. Add a runtime check to protect ourselves to avoid the
// an AV. We still assert because this should not be happening.
// It likely means theres some issue where we failed to send a CreateThread notification.
TargetConsistencyCheck(pThread != NULL);
@@ -5017,11 +5017,20 @@ void CordbProcess::RawDispatchEvent(
}
break;
- case DB_IPCE_SOME_WORK:
+ case DB_IPCE_BEFORE_GARBAGE_COLLECTION:
+ {
+ {
+ PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
+ pCallback4->BeforeGarbageCollection(static_cast<ICorDebugController*>(this));
+ }
+ break;
+ }
+
+ case DB_IPCE_AFTER_GARBAGE_COLLECTION:
{
{
PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
- pCallback4->SomeWork(pThread, pAppDomain);
+ pCallback4->AfterGarbageCollection(static_cast<ICorDebugController*>(this));
}
break;
}
@@ -5107,9 +5116,9 @@ void CordbProcess::RawDispatchEvent(
// even executed jitted code on the thread. We may have not received a CreateThread yet.
// In V2, we detected this and sent a LogMessage on a random thread.
// In V3, we lazily create the CordbThread objects (possibly before the CreateThread event),
- // and so we know we should have one.
+ // and so we know we should have one.
_ASSERTE(pThread != NULL);
-
+
pThread->SetExInfo(pEvent->Exception.vmExceptionHandle);
_ASSERTE(pThread->m_pAppDomain != NULL);
@@ -5154,7 +5163,7 @@ void CordbProcess::RawDispatchEvent(
_ASSERTE(pAppDomain != NULL);
- // A thread is reported as dead before we get the exit event.
+ // A thread is reported as dead before we get the exit event.
// See code:IDacDbiInterface#IsThreadMarkedDead for the invariant being asserted here.
TargetConsistencyCheck(pThread->IsThreadDead());
@@ -5189,9 +5198,9 @@ void CordbProcess::RawDispatchEvent(
case DB_IPCE_LOAD_MODULE:
{
_ASSERTE (pAppDomain != NULL);
- CordbModule * pModule = pAppDomain->LookupOrCreateModule(pEvent->LoadModuleData.vmDomainFile);
-
- {
+ CordbModule * pModule = pAppDomain->LookupOrCreateModule(pEvent->LoadModuleData.vmDomainFile);
+
+ {
pModule->SetLoadEventContinueMarker();
PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
@@ -5213,7 +5222,7 @@ void CordbProcess::RawDispatchEvent(
this,
pEvent->CreateConnection.connectionId,
const_cast<WCHAR*> (pEvent->CreateConnection.wzConnectionName.GetString()));
- }
+ }
break;
case DB_IPCE_DESTROY_CONNECTION:
@@ -5245,7 +5254,7 @@ void CordbProcess::RawDispatchEvent(
VmPtrToCookie(pEvent->vmAppDomain));
PREFIX_ASSUME (pAppDomain != NULL);
-
+
CordbModule *module = pAppDomain->LookupOrCreateModule(pEvent->UnloadModuleData.vmDomainFile);
if (module == NULL)
@@ -5266,7 +5275,7 @@ void CordbProcess::RawDispatchEvent(
PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
pCallback1->UnloadModule(pAppDomain, module);
}
-
+
pAppDomain->m_modules.RemoveBase(VmPtrToCookie(pEvent->UnloadModuleData.vmDomainFile));
}
break;
@@ -5418,14 +5427,14 @@ void CordbProcess::RawDispatchEvent(
// determine first whether custom notifications for this type are enabled -- if not
- // we just return without doing anything.
- CordbClass * pNotificationClass = LookupClass(pAppDomain,
- pEvent->CustomNotification.vmDomainFile,
+ // we just return without doing anything.
+ CordbClass * pNotificationClass = LookupClass(pAppDomain,
+ pEvent->CustomNotification.vmDomainFile,
pEvent->CustomNotification.classToken);
// if the class is NULL, that means the debugger never enabled notifications for it. Otherwise,
- // the CordbClass instance would already have been created when the notifications were
- // enabled.
+ // the CordbClass instance would already have been created when the notifications were
+ // enabled.
if ((pNotificationClass != NULL) && pNotificationClass->CustomNotificationsEnabled())
{
@@ -5445,13 +5454,13 @@ void CordbProcess::RawDispatchEvent(
// Enumerate may have prepopulated the appdomain, so check if it already exists.
- // Either way, still send the CreateEvent. (We don't want to skip the Create event
+ // Either way, still send the CreateEvent. (We don't want to skip the Create event
// just because the debugger did an enumerate)
// We remove AppDomains from the hash as soon as they are exited.
pAppDomain.Assign(LookupOrCreateAppDomain(pEvent->AppDomainData.vmAppDomain));
_ASSERTE(pAppDomain != NULL); // throws on failure
- {
+ {
PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
hr = pCallback1->CreateAppDomain(this, pAppDomain);
}
@@ -5488,11 +5497,11 @@ void CordbProcess::RawDispatchEvent(
m_pDefaultAppDomain = NULL;
}
- // Update any threads which were last seen in this AppDomain. We don't
+ // Update any threads which were last seen in this AppDomain. We don't
// get any notification when a thread leaves an AppDomain, so our idea
// of what AppDomain the thread is in may be out of date.
UpdateThreadsForAdUnload( pAppDomain );
-
+
// This will still maintain weak references so we could call Continue.
AddToNeuterOnContinueList(pAppDomain);
@@ -5508,7 +5517,7 @@ void CordbProcess::RawDispatchEvent(
// Remove this app domain. This means any attempt to lookup the AppDomain
// will fail (which we do at the top of this method). Since any threads (incorrectly) referring
- // to this AppDomain have been moved to the default AppDomain, no one should be
+ // to this AppDomain have been moved to the default AppDomain, no one should be
// interested in looking this AppDomain up anymore.
m_appDomains.RemoveBase(VmPtrToCookie(pEvent->vmAppDomain));
}
@@ -5548,7 +5557,7 @@ void CordbProcess::RawDispatchEvent(
_ASSERTE (pAppDomain != NULL);
CordbAssembly * pAssembly = pAppDomain->LookupOrCreateAssembly(pEvent->AssemblyData.vmDomainAssembly);
-
+
if (pAssembly == NULL)
{
// No assembly. This could happen if we attach right before an unload event is sent.
@@ -5711,7 +5720,7 @@ void CordbProcess::RawDispatchEvent(
if (symFormat == IDacDbiInterface::kSymbolFormatPDB)
{
PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
-
+
_ASSERTE(pStream != NULL); // Shouldn't send the event if we don't have a stream.
pCallback1->UpdateModuleSymbols(pAppDomain, pModule, pStream);
@@ -5737,7 +5746,7 @@ void CordbProcess::RawDispatchEvent(
PUBLIC_CALLBACK_IN_THIS_SCOPE(this, pLockHolder, pEvent);
pCallback2->MDANotification(
- this,
+ this,
pThread, // may be null
pExternalMDARef);
@@ -5878,21 +5887,21 @@ void CordbProcess::RawDispatchEvent(
if (pThread == NULL)
{
// We've found cases out in the wild where we get this event on a thread we don't recognize.
- // We're not sure how this happens. Add a runtime check to protect ourselves to avoid the
+ // We're not sure how this happens. Add a runtime check to protect ourselves to avoid the
// an AV. We still assert because this should not be happening.
// It likely means theres some issue where we failed to send a CreateThread notification.
- STRESS_LOG1(LF_CORDB, LL_INFO1000, "BreakpointSetError on unrecognized thread. %p\n", pBreakpoint);
+ STRESS_LOG1(LF_CORDB, LL_INFO1000, "BreakpointSetError on unrecognized thread. %p\n", pBreakpoint);
_ASSERTE(!"Missing thread on bp set error");
break;
- }
-
+ }
+
pBreakpoint = pAppDomain->m_breakpoints.GetBase(LsPtrToCookie(pEvent->BreakpointSetErrorData.breakpointToken));
if (pBreakpoint != NULL)
{
ICorDebugBreakpoint * pIBreakpoint = CordbBreakpointToInterface(pBreakpoint);
- _ASSERTE(pIBreakpoint != NULL);
+ _ASSERTE(pIBreakpoint != NULL);
{
PUBLIC_CALLBACK_IN_THIS_SCOPE2(this, pLockHolder, pEvent, "thread=0x%p, bp=0x%p", pThread, pBreakpoint);
pCallback1->BreakpointSetError(pAppDomain, pThread, pIBreakpoint, 0);
@@ -5915,8 +5924,8 @@ void CordbProcess::RawDispatchEvent(
if (pThread == NULL)
{
- // We've got an exception on a thread we don't know about. This could be a thread that
- // has never run any managed code, so let's just ignore the exception. We should have
+ // We've got an exception on a thread we don't know about. This could be a thread that
+ // has never run any managed code, so let's just ignore the exception. We should have
// already sent a log message about this situation for the EXCEPTION callback above.
_ASSERTE( pEvent->ExceptionCallback2.eventType == DEBUG_EXCEPTION_UNHANDLED );
break;
@@ -5934,12 +5943,12 @@ void CordbProcess::RawDispatchEvent(
{
// The interface forces us to to pass a FramePointer via an ICorDebugFrame.
// However, we can't get a real ICDFrame without a stackwalk, and we don't
- // want to do a stackwalk now. so pass a netuered proxy frame. The shim
+ // want to do a stackwalk now. so pass a netuered proxy frame. The shim
// can map this to a real frame.
// See comments at CordbPlaceHolderFrame class for details.
pFrame.Assign(new CordbPlaceholderFrame(this, fp));
}
-
+
CorDebugExceptionCallbackType type = pEvent->ExceptionCallback2.eventType;
{
PUBLIC_CALLBACK_IN_THIS_SCOPE3(this, pLockHolder, pEvent, "pThread=0x%p, frame=%p, type=%d", pThread, (ICorDebugFrame*) pFrame, type);
@@ -6000,7 +6009,7 @@ void CordbProcess::RawDispatchEvent(
}
//
- // Tell the debugger that the exception has been intercepted. This is similar to the
+ // Tell the debugger that the exception has been intercepted. This is similar to the
// notification we give when we start unwinding for a non-intercepted exception, except that the
// interception has been completed at this point, which means that we are conceptually at the end
// of the second pass.
@@ -6008,9 +6017,9 @@ void CordbProcess::RawDispatchEvent(
{
PUBLIC_CALLBACK_IN_THIS_SCOPE1(this, pLockHolder, pEvent, "pThread=0x%p", pThread);
hr = pCallback2->ExceptionUnwind(
- pThread->m_pAppDomain,
- pThread,
- DEBUG_EXCEPTION_INTERCEPTED,
+ pThread->m_pAppDomain,
+ pThread,
+ DEBUG_EXCEPTION_INTERCEPTED,
0);
}
}
@@ -6036,7 +6045,7 @@ void CordbProcess::RawDispatchEvent(
}
else // the lock was already held
{
- // see if we threw because the lock was held
+ // see if we threw because the lock was held
_ASSERTE(hr == CORDBG_E_PROCESS_NOT_SYNCHRONIZED);
if (hr != CORDBG_E_PROCESS_NOT_SYNCHRONIZED)
{
@@ -6047,7 +6056,7 @@ void CordbProcess::RawDispatchEvent(
}
break;
-
+
case DB_IPCE_TEST_RWLOCK:
{
EX_TRY
@@ -6068,7 +6077,7 @@ void CordbProcess::RawDispatchEvent(
}
else // the lock was already held
{
- // see if we threw because the lock was held
+ // see if we threw because the lock was held
_ASSERTE(hr == CORDBG_E_PROCESS_NOT_SYNCHRONIZED);
if (hr != CORDBG_E_PROCESS_NOT_SYNCHRONIZED)
{
@@ -6096,7 +6105,7 @@ void CordbProcess::RawDispatchEvent(
//---------------------------------------------------------------------------------------
// Callback for prepopulating threads.
-//
+//
// Arugments:
// vmThread - thread as part of the eunmeration.
// pUserData - data supplied with callback. It's a CordbProcess* object.
@@ -6128,7 +6137,7 @@ void CordbProcess::PrepopulateThreadsOrThrow()
//---------------------------------------------------------------------------------------
// Create a Thread enumerator
-//
+//
// Arguments:
// pOwnerObj - object (a CordbProcess or CordbThread) that will own the enumerator.
// pOwnerList - the neuter list that the enumerator will live on
@@ -6137,8 +6146,8 @@ void CordbProcess::PrepopulateThreadsOrThrow()
void CordbProcess::BuildThreadEnum(CordbBase * pOwnerObj, NeuterList * pOwnerList, RSInitHolder<CordbHashTableEnum> * pHolder)
{
CordbHashTableEnum::BuildOrThrow(
- pOwnerObj,
- pOwnerList,
+ pOwnerObj,
+ pOwnerList,
&m_userThreads,
IID_ICorDebugThreadEnum,
pHolder);
@@ -6153,7 +6162,7 @@ HRESULT CordbProcess::EnumerateThreads(ICorDebugThreadEnum **ppThreads)
if (m_detached)
{
// #Detach_Check:
- //
+ //
// FUTURE: Consider adding this IF block to the PUBLIC_API macros so that
// typical public APIs fail quickly if we're trying to do a detach. For
// now, I'm hand-adding this check only to the few problematic APIs that get
@@ -6204,7 +6213,7 @@ HRESULT CordbProcess::GetThread(DWORD dwThreadId, ICorDebugThread **ppThread)
// See code:CordbProcess::EnumerateThreads#Detach_Check
ThrowHR(CORDBG_E_PROCESS_DETACHED);
}
- CordbThread * pThread = TryLookupOrCreateThreadByVolatileOSId(dwThreadId);
+ CordbThread * pThread = TryLookupOrCreateThreadByVolatileOSId(dwThreadId);
if (pThread == NULL)
{
// This is a common case because we may be looking up an unmanaged thread.
@@ -6292,22 +6301,22 @@ HRESULT CordbProcess::SetAllThreadsDebugState(CorDebugThreadState state,
}
CordbThread * pCordbExceptThread = static_cast<CordbThread *> (pExceptThread);
- LOG((LF_CORDB, LL_INFO1000, "CP::SATDS: except thread=0x%08x 0x%x\n",
- pExceptThread,
+ LOG((LF_CORDB, LL_INFO1000, "CP::SATDS: except thread=0x%08x 0x%x\n",
+ pExceptThread,
(pCordbExceptThread != NULL) ? pCordbExceptThread->m_id : 0));
// Send one event to the Left Side to twiddle each thread's state.
DebuggerIPCEvent event;
-
+
InitIPCEvent(&event, DB_IPCE_SET_ALL_DEBUG_STATE, true, VMPTR_AppDomain::NullPtr());
-
- event.SetAllDebugState.vmThreadToken = ((pCordbExceptThread != NULL) ?
+
+ event.SetAllDebugState.vmThreadToken = ((pCordbExceptThread != NULL) ?
pCordbExceptThread->m_vmThreadToken : VMPTR_Thread::NullPtr());
-
+
event.SetAllDebugState.debugState = state;
HRESULT hr = SendIPCEvent(&event, sizeof(DebuggerIPCEvent));
-
+
hr = WORST_HR(hr, event.hr);
// If that worked, then loop over all the threads on this side and set their states.
@@ -6318,8 +6327,8 @@ HRESULT CordbProcess::SetAllThreadsDebugState(CorDebugThreadState state,
CordbThread * pThread;
// We don't need to prepopulate here (to collect LS state) because we're just updating RS state.
- for (pThread = m_userThreads.FindFirst(&hashFind);
- pThread != NULL;
+ for (pThread = m_userThreads.FindFirst(&hashFind);
+ pThread != NULL;
pThread = m_userThreads.FindNext(&hashFind))
{
if (pThread != pCordbExceptThread)
@@ -6345,7 +6354,7 @@ HRESULT CordbProcess::EnumerateObjects(ICorDebugObjectEnum **ppObjects)
//---------------------------------------------------------------------------------------
//
-// Determines if the target address is a "CLR transition stub".
+// Determines if the target address is a "CLR transition stub".
//
// Arguments:
// address - The address of an instruction to check in the target address space.
@@ -6402,7 +6411,7 @@ HRESULT CordbProcess::IsTransitionStub(CORDB_ADDRESS address, BOOL *pfTransition
// Check against DAC primitives
{
- BOOL fIsStub2 = GetDAC()->IsTransitionStub(address);
+ BOOL fIsStub2 = GetDAC()->IsTransitionStub(address);
(void)fIsStub2; //prevent "unused variable" error from GCC
CONSISTENCY_CHECK_MSGF(*pfTransitionStub == fIsStub2, ("IsStub2 failed, DAC2:%d, IPC:%d, addr:0x%p", (int) fIsStub2, (int) *pfTransitionStub, CORDB_ADDRESS_TO_PTR(address)));
@@ -6480,7 +6489,7 @@ HRESULT CordbProcess::SafeReadThreadContext(LSPTR_CONTEXT pContext, DT_CONTEXT *
// At a minimum we have room for a whole context up to the extended registers.
#if defined(DT_CONTEXT_EXTENDED_REGISTERS)
- ULONG32 minContextSize = offsetof(DT_CONTEXT, ExtendedRegisters);
+ ULONG32 minContextSize = offsetof(DT_CONTEXT, ExtendedRegisters);
#else
ULONG32 minContextSize = sizeof(DT_CONTEXT);
#endif
@@ -6488,7 +6497,7 @@ HRESULT CordbProcess::SafeReadThreadContext(LSPTR_CONTEXT pContext, DT_CONTEXT *
// Read the minimum part.
TargetBuffer tbMin = tbFull.SubBuffer(0, minContextSize);
SafeReadBuffer(tbMin, (BYTE*) pCtx);
-
+
#if defined(DT_CONTEXT_EXTENDED_REGISTERS)
void *pCurExtReg = (void*)((UINT_PTR)pCtx + minContextSize);
TargetBuffer tbExtended = tbFull.SubBuffer(minContextSize);
@@ -6535,7 +6544,7 @@ HRESULT CordbProcess::SafeWriteThreadContext(LSPTR_CONTEXT pContext, const DT_CO
}
#endif
-// 64 bit windows puts space for the first 6 stack parameters in the CONTEXT structure so that
+// 64 bit windows puts space for the first 6 stack parameters in the CONTEXT structure so that
// kernel to usermode transitions don't have to allocate a CONTEXT and do a seperate sub rsp
// to allocate stack spill space for the arguments. This means that writing to P1Home - P6Home
// will overwrite the arguments of some function higher on the stack, very bad. Conceptually you
@@ -6555,7 +6564,7 @@ HRESULT CordbProcess::SafeWriteThreadContext(LSPTR_CONTEXT pContext, const DT_CO
SafeWriteBuffer(tb, (const BYTE*) pCtxSource);
}
EX_CATCH_HRESULT(hr);
-
+
return hr;
}
@@ -6599,7 +6608,7 @@ HRESULT CordbProcess::GetThreadContext(DWORD threadID, ULONG32 contextSize, BYTE
}
// Public implementation of ICorDebugProcess::SetThreadContext.
-// @dbgtodo interop-debugging: this should go away in V3. Use the data-target instead. This is
+// @dbgtodo interop-debugging: this should go away in V3. Use the data-target instead. This is
// interop-debugging aware (and cooperates with hijacks)
HRESULT CordbProcess::SetThreadContext(DWORD threadID, ULONG32 contextSize, BYTE context[])
{
@@ -6648,8 +6657,8 @@ HRESULT CordbProcess::SetThreadContext(DWORD threadID, ULONG32 contextSize, BYTE
{
// Find the managed thread. Returns NULL if thread is not managed.
// If we don't have a thread prveiously cached, then there's no state to update.
- CordbThread * pThread = TryLookupThreadByVolatileOSId(threadID);
-
+ CordbThread * pThread = TryLookupThreadByVolatileOSId(threadID);
+
if (pThread != NULL)
{
// In V2, we used to update the CONTEXT of the leaf chain if the chain is an unmanaged chain.
@@ -6761,9 +6770,9 @@ LExit:
// if we've written over them. And put the int3 back in for write-memory.
//
// Note: If we're writing memory over top of a patch, then it must be JITted or stub code.
-// Writing over JITed or Stub code can be dangerous since the CLR may not expect it
+// Writing over JITed or Stub code can be dangerous since the CLR may not expect it
// (eg. JIT data structures about the code layout may be incorrect), but in certain
-// narrow cases it may be safe (eg. replacing a constant). VS says they wouldn't expect
+// narrow cases it may be safe (eg. replacing a constant). VS says they wouldn't expect
// this to work, but we'll keep the support in for legacy reasons.
//
// address, size - describe buffer in LS memory
@@ -6838,7 +6847,7 @@ HRESULT CordbProcess::AdjustBuffer( CORDB_ADDRESS address,
_ASSERTE( pbUpdatePatchTable != NULL );
_ASSERTE( bufferCopy != NULL );
- //There can be multiple patches at the same address: we don't want 2nd+ patches to get the
+ //There can be multiple patches at the same address: we don't want 2nd+ patches to get the
// break opcode, so we read from the unmodified copy.
m_rgUncommitedOpcode[iNextFree] =
CORDbgGetInstructionEx(*bufferCopy, address, patchAddress, opcode, size);
@@ -6861,7 +6870,7 @@ HRESULT CordbProcess::AdjustBuffer( CORDB_ADDRESS address,
delete [] *bufferCopy;
*bufferCopy = NULL;
}
-
+
return S_OK;
}
@@ -6984,14 +6993,14 @@ HRESULT CordbProcess::RefreshPatchTable(CORDB_ADDRESS address, SIZE_T size, BYTE
LOG((LF_CORDB, LL_INFO10000, "Wont refresh patch table because its not valid now.\n"));
return S_OK;
}
-
+
EX_TRY
{
rgb = new BYTE[cbTableSlice]; // throws
TargetBuffer tbSlice((BYTE*)m_runtimeOffsets.m_pPatches + offStart, cbTableSlice);
this->SafeReadBuffer(tbSlice, rgb); // Throws;
-
+
// Note that rgData is a pointer in the left side address space
m_rgData = *(BYTE**)(rgb + m_runtimeOffsets.m_offRgData - offStart);
m_cPatch = *(ULONG*)(rgb + m_runtimeOffsets.m_offCData - offStart);
@@ -7013,7 +7022,7 @@ HRESULT CordbProcess::RefreshPatchTable(CORDB_ADDRESS address, SIZE_T size, BYTE
TargetBuffer tb(m_rgData, cbPatchTable);
this->SafeReadBuffer(tb, m_pPatchTable); // Throws
-
+
//As we go through the patch table we do a number of things:
//
// 1. collect min,max address seen for quick fail check
@@ -7092,7 +7101,7 @@ LExit:
EX_CATCH_HRESULT(hr);
}
-
+
if (rgb != NULL )
{
delete [] rgb;
@@ -7108,7 +7117,7 @@ LExit:
//---------------------------------------------------------------------------------------
//
-// Given an address, see if there is a patch in the patch table that matches it and return
+// Given an address, see if there is a patch in the patch table that matches it and return
// if its an unmanaged patch or not.
//
// Arguments:
@@ -7116,14 +7125,14 @@ LExit:
// pfPatchFound - Space to store the result, TRUE if the address belongs to a
// patch, FALSE if not. Only valid if this method returns a success code.
// pfPatchIsUnmanaged - Space to store the result, TRUE if the address is a patch
-// and the patch is unmanaged, FALSE if not. Only valid if this method returns a
+// and the patch is unmanaged, FALSE if not. Only valid if this method returns a
// success code.
//
// Return Value:
// Typical HRESULT symantics, nothing abnormal.
//
-// Note: this method is pretty in-efficient. It refreshes the patch table, then scans it.
-// Refreshing the patch table involves a scan, too, so this method could be folded
+// Note: this method is pretty in-efficient. It refreshes the patch table, then scans it.
+// Refreshing the patch table involves a scan, too, so this method could be folded
// with that.
//
//---------------------------------------------------------------------------------------
@@ -7267,13 +7276,13 @@ HRESULT CordbProcess::WriteMemory(CORDB_ADDRESS address, DWORD size,
"(This assert is only enabled under the COM+ knob DbgCheckInt3.)\n",
CORDB_ADDRESS_TO_PTR(address)));
}
-#endif // DBG_TARGET_X86 || DBG_TARGET_AMD64
+#endif // DBG_TARGET_X86 || DBG_TARGET_AMD64
// check if we're replaced an opcode.
if (size == 1)
{
RSLockHolder ch(&this->m_processMutex);
-
+
NativePatch * p = GetNativePatch(CORDB_ADDRESS_TO_PTR(address));
if (p != NULL)
{
@@ -7304,7 +7313,7 @@ HRESULT CordbProcess::WriteMemory(CORDB_ADDRESS address, DWORD size,
if (m_initialized)
{
RSLockHolder ch(&this->m_processMutex);
-
+
if (m_pPatchTable == NULL )
{
if (!SUCCEEDED( hr = RefreshPatchTable() ) )
@@ -7340,7 +7349,7 @@ HRESULT CordbProcess::WriteMemory(CORDB_ADDRESS address, DWORD size,
else
hrSaved = hr;
}
-
+
LOG((LF_CORDB, LL_INFO100000, "CP::WM: wrote %d bytes at 0x%08x, first byte is 0x%x\n",
*written, (DWORD)address, buffer[0]));
@@ -7489,7 +7498,7 @@ CordbUnmanagedThread *CordbProcess::HandleUnmanagedCreateThread(DWORD dwThreadId
// Note: Throws on error
//-----------------------------------------------------------------------------
void CordbProcess::InitDac()
-{
+{
// Go-Go DAC power!!
HRESULT hr = S_OK;
EX_TRY
@@ -7506,7 +7515,7 @@ void CordbProcess::InitDac()
// - a CLR dev built mscorwks but didn't build DAC.
SIMPLIFYING_ASSUMPTION_MSGF(false, ("Failed to load DAC while for debugging. hr=0x%08x", hr));
ThrowHR(hr);
- }
+ }
} //CordbProcess::InitDac
// Update the entire RS copy of the debugger control block by reading the LS copy. The RS copy is treated as
@@ -7515,8 +7524,8 @@ void CordbProcess::InitDac()
// update everything for simplicity; any perf hit we take by doing this instead of updating the individual
// fields we want at any given point isn't significant, particularly if we are updating multiple fields.
-// Arguments:
-// none, but reads process memory from the LS debugger control block
+// Arguments:
+// none, but reads process memory from the LS debugger control block
// Return Value: none (copies from LS DCB to RS buffer GetDCB())
// Note: throws if SafeReadBuffer fails
void CordbProcess::UpdateRightSideDCB()
@@ -7526,7 +7535,7 @@ void CordbProcess::UpdateRightSideDCB()
// Update a single field with a value stored in the RS copy of the DCB. We can't update the entire LS DCB
// because in some cases, the LS and RS are simultaneously initializing the DCB. If we initialize a field on
-// the RS and write back the whole thing, we may overwrite something the LS has initialized in the interim.
+// the RS and write back the whole thing, we may overwrite something the LS has initialized in the interim.
// Arguments:
// input: rsFieldAddr - the address of the field in the RS copy of the DCB that we want to write back to
@@ -7545,28 +7554,28 @@ void CordbProcess::UpdateLeftSideDCBField(void * rsFieldAddr, SIZE_T size)
//-----------------------------------------------------------------------------
// Gets the remote address of the event block for the Target and verifies that it's valid.
// We use this address when we need to read from or write to the debugger control block.
-// Also allocates the RS buffer used for temporary storage for information from the DCB and
+// Also allocates the RS buffer used for temporary storage for information from the DCB and
// copies the LS DCB into the RS buffer.
// Arguments:
// output: pfBlockExists - true iff the LS DCB has been successfully allocated. Note that
-// we need this information even if the function throws, so we can't simply send it back
+// we need this information even if the function throws, so we can't simply send it back
// as a return value.
// Return value:
-// None, but allocates GetDCB() on success. If the LS DCB has not
-// been successfully initialized or if this throws, GetDCB() will be NULL.
+// None, but allocates GetDCB() on success. If the LS DCB has not
+// been successfully initialized or if this throws, GetDCB() will be NULL.
//
// Notes:
// Throws on error
//
//-----------------------------------------------------------------------------
void CordbProcess::GetEventBlock(BOOL * pfBlockExists)
-{
+{
if (GetDCB() == NULL) // we only need to do this once
{
_ASSERTE(m_pShim != NULL);
_ASSERTE(ThreadHoldsProcessLock());
- // This will Initialize the DAC/DBI interface.
+ // This will Initialize the DAC/DBI interface.
BOOL fDacReady = TryInitializeDac();
if (fDacReady)
@@ -7581,11 +7590,11 @@ void CordbProcess::GetEventBlock(BOOL * pfBlockExists)
if (pLeftSideDCB == NULL)
{
*pfBlockExists = false;
- ThrowHR(CORDBG_E_DEBUGGING_NOT_POSSIBLE);
+ ThrowHR(CORDBG_E_DEBUGGING_NOT_POSSIBLE);
}
- IfFailThrow(NewEventChannelForThisPlatform(pLeftSideDCB,
- m_pMutableDataTarget,
+ IfFailThrow(NewEventChannelForThisPlatform(pLeftSideDCB,
+ m_pMutableDataTarget,
GetPid(),
m_pShim->GetMachineInfo(),
&m_pEventChannel));
@@ -7595,12 +7604,12 @@ void CordbProcess::GetEventBlock(BOOL * pfBlockExists)
UpdateRightSideDCB();
// Verify that the control block is valid.
- // This will throw on error.
- VerifyControlBlock();
-
+ // This will throw on error.
+ VerifyControlBlock();
+
*pfBlockExists = true;
}
- else
+ else
{
// we can't initialize the DAC, so we can't get the block
*pfBlockExists = false;
@@ -7635,7 +7644,7 @@ void CordbProcess::VerifyControlBlock()
UpdateLeftSideDCBField(&(GetDCB()->m_rightSideProtocolCurrent), sizeof(GetDCB()->m_rightSideProtocolCurrent));
GetDCB()->m_rightSideProtocolMinSupported = CorDB_RightSideProtocolMinSupported;
- UpdateLeftSideDCBField(&(GetDCB()->m_rightSideProtocolMinSupported),
+ UpdateLeftSideDCBField(&(GetDCB()->m_rightSideProtocolMinSupported),
sizeof(GetDCB()->m_rightSideProtocolMinSupported));
// For Telesto, Dbi and Wks have a more flexible versioning allowed, as described by the Debugger
@@ -7650,7 +7659,7 @@ void CordbProcess::VerifyControlBlock()
// But just in case the installation is corrupted, we'll check it.
if (GetDCB()->m_DCBSize != sizeof(DebuggerIPCControlBlock))
{
- CONSISTENCY_CHECK_MSGF(false, ("DCB in LS is %d bytes, in RS is %d bytes. Version mismatch!!\n",
+ CONSISTENCY_CHECK_MSGF(false, ("DCB in LS is %d bytes, in RS is %d bytes. Version mismatch!!\n",
GetDCB()->m_DCBSize, sizeof(DebuggerIPCControlBlock)));
ThrowHR(CORDBG_E_INCOMPATIBLE_PROTOCOL);
}
@@ -7740,7 +7749,7 @@ HRESULT CordbProcess::GetRuntimeOffsets()
// get the remote address of the runtime offsets structure and read the structure itself
HRESULT hrRead = SafeReadStruct(PTR_TO_CORDB_ADDRESS(GetDCB()->m_pRuntimeOffsets), &m_runtimeOffsets);
-
+
if (FAILED(hrRead))
{
return hrRead;
@@ -7824,7 +7833,7 @@ HRESULT CordbProcess::GetRuntimeOffsets()
m_runtimeOffsets.m_excepNotForRuntimeBPAddr,
m_runtimeOffsets.m_notifyRSOfSyncCompleteBPAddr,
};
-
+
const int NumFlares = NumItems(flares);
// Ensure that all of the flares are unique.
@@ -7971,7 +7980,7 @@ void CordbProcess::QueueUnmanagedEvent(CordbUnmanagedThread *pUThread, const DEB
// the event then it did not.
_ASSERTE(ue->IsEventContinuedUnhijacked());
LOG((LF_CORDB, LL_INFO10000, "CP::QUE: A previously seen event is being discarded 0x%x 0x%p\n",
- ue->m_currentDebugEvent.u.Exception.ExceptionRecord.ExceptionCode,
+ ue->m_currentDebugEvent.u.Exception.ExceptionRecord.ExceptionCode,
ue->m_currentDebugEvent.u.Exception.ExceptionRecord.ExceptionAddress));
DequeueUnmanagedEvent(ue->m_owner);
}
@@ -8418,12 +8427,12 @@ HRESULT CordbProcess::StartSyncFromWin32Stop(BOOL * pfAsyncBreakSent)
// The process can be running free as far as Win32 events are concerned, but still not synchronized as far as the
// Runtime is concerned. This can happen in a lot of cases where we end up with the Runtime not sync'd but with the
// process running free due to hijacking, etc...
- if (((m_state & CordbProcess::PS_WIN32_STOPPED) && (m_outOfBandEventQueue == NULL)) ||
+ if (((m_state & CordbProcess::PS_WIN32_STOPPED) && (m_outOfBandEventQueue == NULL)) ||
(!GetSynchronized() && IsInteropDebugging()))
{
Lock();
- if (((m_state & CordbProcess::PS_WIN32_STOPPED) && (m_outOfBandEventQueue == NULL)) ||
+ if (((m_state & CordbProcess::PS_WIN32_STOPPED) && (m_outOfBandEventQueue == NULL)) ||
(!GetSynchronized() && IsInteropDebugging()))
{
// This can't be the win32 ET b/c we need that thread to be alive and pumping win32 DE so that
@@ -8575,17 +8584,17 @@ void CordbProcess::UnrecoverableError(HRESULT errorHR,
// debugger while inside CordbProcess::DispatchRCEvent() (as that function deliberately
// calls Unlock() while calling into the Shim). Detect such cases here & bail before we
// try to access invalid fields on this CordbProcess.
- //
+ //
// Normally, we'd need to take the cordb process lock around the IsNeutered check
// (and the code that follows). And perhaps this is a good thing to do in the
// future. But for now we're not for two reasons:
- //
+ //
// 1) It's scary. We're in UnrecoverableError() for gosh sake. I don't know all
// the possible bad states we can be in to get here. Will taking the process lock
// have ordering issues? Will the process lock even be valid to take here (or might
// we AV)? Since this is error handling, we should probably be as light as we can
// not to cause more errors.
- //
+ //
// 2) It's unnecessary. For the Watson dump I investigated that caused this fix in
// the first place, we already detached before entering UnrecoverableError()
// (indeed, the only reason we're in UnrecoverableError is that we already detached
@@ -8605,7 +8614,7 @@ void CordbProcess::UnrecoverableError(HRESULT errorHR,
// @dbgtodo - , shim: Once everything is hoisted, we can remove
// this code.
// In the v3 case, we should never get an unrecoverable error. Instead, the HR should be propogated
- // and returned at the top-level public API.
+ // and returned at the top-level public API.
_ASSERTE(!"Unrecoverable error dispatched in V3 case.");
}
@@ -8639,7 +8648,7 @@ void CordbProcess::UnrecoverableError(HRESULT errorHR,
}
EX_CATCH
{
- _ASSERTE(!"Writing process memory failed, perhaps due to an unexpected disconnection from the target.");
+ _ASSERTE(!"Writing process memory failed, perhaps due to an unexpected disconnection from the target.");
}
EX_END_CATCH(SwallowAllExceptions);
}
@@ -8664,7 +8673,7 @@ HRESULT CordbProcess::CheckForUnrecoverableError()
{
HRESULT hr = S_OK;
- if (GetDCB() != NULL)
+ if (GetDCB() != NULL)
{
// be sure we have the latest information
UpdateRightSideDCB();
@@ -8743,11 +8752,11 @@ COM_METHOD CordbProcess::ModifyLogSwitch(__in_z WCHAR *pLogSwitchName, LONG lLev
// cbSize - the size of local buffer
//
// Exceptions
-// On error throws the result of WriteVirtual unless a short write is performed,
+// On error throws the result of WriteVirtual unless a short write is performed,
// in which case throws ERROR_PARTIAL_COPY
//
-void CordbProcess::SafeWriteBuffer(TargetBuffer tb,
- const BYTE * pLocalBuffer)
+void CordbProcess::SafeWriteBuffer(TargetBuffer tb,
+ const BYTE * pLocalBuffer)
{
_ASSERTE(m_pMutableDataTarget != NULL);
HRESULT hr = m_pMutableDataTarget->WriteVirtual(tb.pAddress,
@@ -8778,10 +8787,10 @@ HRESULT CordbProcess::SafeReadBuffer(TargetBuffer tb, BYTE * pLocalBuffer, BOOL
ULONG32 cbRead;
HRESULT hr = m_pDACDataTarget->ReadVirtual(tb.pAddress,
pLocalBuffer,
- tb.cbSize,
+ tb.cbSize,
&cbRead);
- if (FAILED(hr))
+ if (FAILED(hr))
{
if (throwOnError)
ThrowHR(CORDBG_E_READVIRTUAL_FAILURE);
@@ -8807,12 +8816,12 @@ HRESULT CordbProcess::SafeReadBuffer(TargetBuffer tb, BYTE * pLocalBuffer, BOOL
// vmAppDomain - CLR appdomain to lookup
//
// Returns:
-// Instance of CordbAppDomain for the given appdomain. This is a cached instance.
-// If the CordbAppDomain does not yet exist, it will be created and added to the cache.
+// Instance of CordbAppDomain for the given appdomain. This is a cached instance.
+// If the CordbAppDomain does not yet exist, it will be created and added to the cache.
// Never returns NULL. Throw on error.
CordbAppDomain * CordbProcess::LookupOrCreateAppDomain(VMPTR_AppDomain vmAppDomain)
{
- CordbAppDomain * pAppDomain = m_appDomains.GetBase(VmPtrToCookie(vmAppDomain));
+ CordbAppDomain * pAppDomain = m_appDomains.GetBase(VmPtrToCookie(vmAppDomain));
if (pAppDomain != NULL)
{
return pAppDomain;
@@ -8831,7 +8840,7 @@ CordbAppDomain * CordbProcess::GetSharedAppDomain()
}
m_sharedAppDomain->InternalAddRef();
}
-
+
return m_sharedAppDomain;
}
@@ -8843,12 +8852,12 @@ CordbAppDomain * CordbProcess::GetSharedAppDomain()
// vmAppDomain - appdomain to add.
//
// Return Value:
-// Pointer to newly created appdomain, which should be the normal case.
+// Pointer to newly created appdomain, which should be the normal case.
// Throws on failure. Never returns null.
//
// Assumptions:
// Caller ensure the appdomain is not already cached.
-// Caller should have stop-go lock, which provides thread-safety.
+// Caller should have stop-go lock, which provides thread-safety.
//
// Notes:
// This sets unrecoverable error on failure.
@@ -8862,8 +8871,8 @@ CordbAppDomain * CordbProcess::CacheAppDomain(VMPTR_AppDomain vmAppDomain)
RSInitHolder<CordbAppDomain> pAppDomain;
pAppDomain.Assign(new CordbAppDomain(this, vmAppDomain)); // throws
-
- // Add to the hash. This will addref the pAppDomain.
+
+ // Add to the hash. This will addref the pAppDomain.
// Caller ensures we're not already cached.
// The cache will take ownership.
m_appDomains.AddBaseOrThrow(pAppDomain);
@@ -8898,7 +8907,7 @@ CordbAppDomain * CordbProcess::CacheAppDomain(VMPTR_AppDomain vmAppDomain)
//
//
// Assumptions:
-// Invoked as callback from code:CordbProcess::PrepopulateAppDomains
+// Invoked as callback from code:CordbProcess::PrepopulateAppDomains
//
//
//---------------------------------------------------------------------------------------
@@ -8943,8 +8952,8 @@ void CordbProcess::PrepopulateAppDomainsOrThrow()
CONTRACTL_END;
INTERNAL_API_ENTRY(this);
-
- if (!IsDacInitialized())
+
+ if (!IsDacInitialized())
{
return;
}
@@ -8966,7 +8975,7 @@ void CordbProcess::PrepopulateAppDomainsOrThrow()
// S_OK on success.
//
// Assumptions:
-//
+//
//
// Notes:
// This operation is non-invasive target.
@@ -8980,16 +8989,16 @@ HRESULT CordbProcess::EnumerateAppDomains(ICorDebugAppDomainEnum **ppAppDomains)
ValidateOrThrow(ppAppDomains);
// Ensure list is populated.
- PrepopulateAppDomainsOrThrow();
-
+ PrepopulateAppDomainsOrThrow();
+
RSInitHolder<CordbHashTableEnum> pEnum;
CordbHashTableEnum::BuildOrThrow(
- this,
- GetContinueNeuterList(),
+ this,
+ GetContinueNeuterList(),
&m_appDomains,
IID_ICorDebugAppDomainEnum,
pEnum.GetAddr());
-
+
*ppAppDomains = static_cast<ICorDebugAppDomainEnum*> (pEnum);
pEnum->ExternalAddRef();
@@ -9015,7 +9024,7 @@ HRESULT CordbProcess::GetObject(ICorDebugValue **ppObject)
//---------------------------------------------------------------------------------------
//
-// Given a taskid, finding the corresponding thread. The function can fail if we do not
+// Given a taskid, finding the corresponding thread. The function can fail if we do not
// find any thread with the given taskid
//
// Arguments:
@@ -9042,7 +9051,7 @@ HRESULT CordbProcess::GetThreadForTaskID(TASKID taskId, ICorDebugThread2 ** ppTh
ThrowHR(E_INVALIDARG);
}
- // On initialization, the task ID of every thread is INVALID_TASK_ID, unless a host is present and
+ // On initialization, the task ID of every thread is INVALID_TASK_ID, unless a host is present and
// the host calls IClrTask::SetTaskIdentifier(). So we need to explicitly check for INVALID_TASK_ID
// here and return NULL if necessary. We return S_FALSE because that's the return value for the case
// where we can't find a thread for the specified task ID.
@@ -9054,12 +9063,12 @@ HRESULT CordbProcess::GetThreadForTaskID(TASKID taskId, ICorDebugThread2 ** ppTh
else
{
PrepopulateThreadsOrThrow();
-
+
// now find the ICorDebugThread corresponding to it
CordbThread * pThread;
HASHFIND hashFind;
-
+
for (pThread = m_userThreads.FindFirst(&hashFind);
pThread != NULL;
pThread = m_userThreads.FindNext(&hashFind))
@@ -9068,7 +9077,7 @@ HRESULT CordbProcess::GetThreadForTaskID(TASKID taskId, ICorDebugThread2 ** ppTh
{
break;
}
- }
+ }
if (pThread == NULL)
{
@@ -9113,7 +9122,7 @@ CordbProcess::GetVersion(COR_VERSION* pVersion)
NativePatch * CordbProcess::GetNativePatch(const void * pAddress)
{
_ASSERTE(ThreadHoldsProcessLock());
-
+
int cTotal = m_NativePatchList.Count();
NativePatch * pTable = m_NativePatchList.Table();
if (pTable == NULL)
@@ -9147,8 +9156,8 @@ bool CordbProcess::IsBreakOpcodeAtAddress(const void * address)
#endif
HRESULT hr = SafeReadStruct(PTR_TO_CORDB_ADDRESS(address), &opcodeTest);
- SIMPLIFYING_ASSUMPTION_SUCCEEDED(hr);
-
+ SIMPLIFYING_ASSUMPTION_SUCCEEDED(hr);
+
return (opcodeTest == CORDbg_BREAK_INSTRUCTION);
}
#endif // FEATURE_INTEROP_DEBUGGING
@@ -9289,7 +9298,7 @@ CordbProcess::ClearUnmanagedBreakpoint(CORDB_ADDRESS address)
PUBLIC_API_ENTRY(this);
FAIL_IF_NEUTERED(this);
FAIL_IF_MANAGED_ONLY(this);
-
+
_ASSERTE(!ThreadHoldsProcessLock());
HRESULT hr = S_OK;
@@ -9418,7 +9427,7 @@ void CordbProcess::SetSyncCompleteRecv(bool fSyncRecv)
// This can be used if we ever need the RS to emulate old behavior of previous versions.
// This can not be used in QIs to deny queries for new interfaces.
-// QIs must be consistent across the lifetime of an object. Say CordbThread used this in a QI
+// QIs must be consistent across the lifetime of an object. Say CordbThread used this in a QI
// do deny returning a ICorDebugThread2 interface when emulating v1.1. Once that Thread is neutered,
// it no longer has a pointer to the process, and it no longer knows if it should be denying
// the v2.0 query. An object's QI can't start returning new interfaces onces its neutered.
@@ -9431,12 +9440,12 @@ bool CordbProcess::SupportsVersion(CorDebugInterfaceVersion featureVersion)
//---------------------------------------------------------------------------------------
// Add an object to the process's Left-Side resource cleanup list
-//
+//
// Arguments:
// pObject - non-null object to be added
-//
+//
// Notes:
-// This list tracks objects with process-scope that hold left-side
+// This list tracks objects with process-scope that hold left-side
// resources (like func-eval).
// See code:CordbAppDomain::GetSweepableExitNeuterList for per-appdomain
// objects with left-side resources.
@@ -9444,7 +9453,7 @@ void CordbProcess::AddToLeftSideResourceCleanupList(CordbBase * pObject)
{
INTERNAL_API_ENTRY(this);
_ASSERTE(pObject != NULL);
-
+
m_LeftSideResourceCleanupList.Add(this, pObject);
}
@@ -9453,12 +9462,12 @@ void CordbProcess::AddToNeuterOnExitList(CordbBase *pObject)
{
INTERNAL_API_ENTRY(this);
_ASSERTE(pObject != NULL);
-
+
HRESULT hr = S_OK;
EX_TRY
{
this->m_ExitNeuterList.Add(this, pObject);
- }
+ }
EX_CATCH_HRESULT(hr);
SetUnrecoverableIfFailed(GetProcess(), hr);
}
@@ -9469,7 +9478,7 @@ void CordbProcess::AddToNeuterOnContinueList(CordbBase *pObject)
INTERNAL_API_ENTRY(this);
_ASSERTE(pObject != NULL);
- m_ContinueNeuterList.Add(this, pObject); // throws
+ m_ContinueNeuterList.Add(this, pObject); // throws
}
@@ -9548,7 +9557,7 @@ void CordbProcess::DuplicateHandleToLocalProcess(HANDLE * pLocalHandle, RemoteHA
{
BOOL fSuccess = pRemoteHandle->DuplicateToLocalProcess(m_handle, pLocalHandle);
if (!fSuccess)
- {
+ {
ThrowLastError();
}
}
@@ -9602,7 +9611,7 @@ void CordbProcess::FinishInitializeIPCChannelWorker()
LOG((LF_CORDB, LL_INFO1000, "[%x] RCET::HFRCE: first event..., process %p\n", GetCurrentThreadId(), this));
BOOL fBlockExists;
- GetEventBlock(&fBlockExists); // throws on error
+ GetEventBlock(&fBlockExists); // throws on error
LOG((LF_CORDB, LL_EVERYTHING, "Size of CdbP is %d\n", sizeof(CordbProcess)));
@@ -9611,7 +9620,7 @@ void CordbProcess::FinishInitializeIPCChannelWorker()
#if defined(FEATURE_INTEROP_DEBUGGING)
DuplicateHandleToLocalProcess(&m_leftSideUnmanagedWaitEvent, &GetDCB()->m_leftSideUnmanagedWaitEvent);
#endif // FEATURE_INTEROP_DEBUGGING
-
+
// Read the Runtime Offsets struct out of the debuggee.
hr = GetRuntimeOffsets();
IfFailThrow(hr);
@@ -9619,11 +9628,11 @@ void CordbProcess::FinishInitializeIPCChannelWorker()
// we need to be careful here. The LS will have a thread running free that may be initializing
// fields of the DCB (specifically it may be setting up the helper thread), so we need to make sure
// we don't overwrite any fields that the LS is writing. We need to be sure we only write to RS
- // status fields.
+ // status fields.
m_initialized = true;
GetDCB()->m_rightSideIsWin32Debugger = IsInteropDebugging();
UpdateLeftSideDCBField(&(GetDCB()->m_rightSideIsWin32Debugger), sizeof(GetDCB()->m_rightSideIsWin32Debugger));
-
+
LOG((LF_CORDB, LL_INFO1000, "[%x] RCET::HFRCE: ...went fine\n", GetCurrentThreadId()));
_ASSERTE(SUCCEEDED(hr));
@@ -9636,7 +9645,7 @@ void CordbProcess::FinishInitializeIPCChannelWorker()
// We only land here on failure cases.
// We must have jumped to this label. Maybe we didn't set HR, so check now.
STRESS_LOG1(LF_CORDB, LL_INFO1000, "HFCR: FAILED hr=0x%08x\n", hr);
-
+
CloseIPCHandles();
// Rethrow
@@ -9653,10 +9662,10 @@ void CordbProcess::FinishInitializeIPCChannelWorker()
// Throws on error
void Ls_Rs_BaseBuffer::CopyLSDataToRSWorker(ICorDebugDataTarget * pTarget)
{
- //
+ //
const DWORD cbCacheSize = m_cbSize;
-
- // SHOULD not happen for more than once in well-behaved case.
+
+ // SHOULD not happen for more than once in well-behaved case.
if (m_pbRS != NULL)
{
SIMPLIFYING_ASSUMPTION(!"m_pbRS is non-null; is this a corrupted event?");
@@ -9664,7 +9673,7 @@ void Ls_Rs_BaseBuffer::CopyLSDataToRSWorker(ICorDebugDataTarget * pTarget)
}
NewHolder<BYTE> pData(new BYTE[cbCacheSize]);
-
+
ULONG32 cbRead;
HRESULT hrRead = pTarget->ReadVirtual(PTR_TO_CORDB_ADDRESS(m_pbLS), pData, cbCacheSize , &cbRead);
@@ -9672,7 +9681,7 @@ void Ls_Rs_BaseBuffer::CopyLSDataToRSWorker(ICorDebugDataTarget * pTarget)
{
hrRead = CORDBG_E_READVIRTUAL_FAILURE;
}
-
+
if (SUCCEEDED(hrRead) && (cbCacheSize != cbRead))
{
hrRead = HRESULT_FROM_WIN32(ERROR_PARTIAL_COPY);
@@ -9681,7 +9690,7 @@ void Ls_Rs_BaseBuffer::CopyLSDataToRSWorker(ICorDebugDataTarget * pTarget)
// Now do Transfer
m_pbRS = pData;
- pData.SuppressRelease();
+ pData.SuppressRelease();
}
//---------------------------------------------------------------------------------------
@@ -9704,20 +9713,20 @@ void Ls_Rs_ByteBuffer::CopyLSDataToRS(ICorDebugDataTarget * pTarget)
//
// Throws on error
void Ls_Rs_StringBuffer::CopyLSDataToRS(ICorDebugDataTarget * pTarget)
-{
+{
CopyLSDataToRSWorker(pTarget);
-
+
// Ensure we're a valid, well-formed string.
// @dbgtodo - this should only happen in corrupted scenarios. Perhaps a better HR here?
// - null terminated.
// - no embedded nulls.
-
+
const WCHAR * pString = GetString();
SIZE_T dwExpectedLenWithNull = m_cbSize / sizeof(WCHAR);
-
+
// Should at least have 1 character for the null-terminator.
if (dwExpectedLenWithNull == 0)
- {
+ {
ThrowHR(CORDBG_E_TARGET_INCONSISTENT);
}
@@ -9749,17 +9758,17 @@ void Ls_Rs_StringBuffer::CopyLSDataToRS(ICorDebugDataTarget * pTarget)
//
// Assumptions:
// Target is currently stopped and inspectable.
-// After the event is marshalled, it has resources that must be cleaned up
+// After the event is marshalled, it has resources that must be cleaned up
// by calling code:DeleteIPCEventHelper.
-//
+//
// Notes:
// Call a Copy function (CopyManagedEventFromTarget, CopyRCEventFromIPCBlock)to
// get the event to marshal.
// This will marshal args from the target into the host.
-// The debug event is fixed size. But since the debuggee is stopped, this can copy
-// arbitrary-length buffers out of of the debuggee.
+// The debug event is fixed size. But since the debuggee is stopped, this can copy
+// arbitrary-length buffers out of of the debuggee.
//
-// This could be rolled into code:CordbProcess::RawDispatchEvent
+// This could be rolled into code:CordbProcess::RawDispatchEvent
//---------------------------------------------------------------------------------------
void CordbProcess::MarshalManagedEvent(DebuggerIPCEvent * pManagedEvent)
{
@@ -9799,7 +9808,7 @@ void CordbProcess::MarshalManagedEvent(DebuggerIPCEvent * pManagedEvent)
break;
}
-
+
}
@@ -9815,37 +9824,37 @@ void CordbProcess::MarshalManagedEvent(DebuggerIPCEvent * pManagedEvent)
// loaded into the target and all sending events wit the same exception code.
// * False if this does not belong to this instance of ICorDebug. (perhaps it's an event
// intended for another instance of the CLR in the target, or some rogue user code happening
-// to use our exception code).
+// to use our exception code).
// In either case, the event can still be cleaned up via code:DeleteIPCEventHelper.
//
// Throws on error. In the error case, the contents of pLocalManagedEvent are undefined.
-// They may have been partially copied from the target. The local managed event does not own
+// They may have been partially copied from the target. The local managed event does not own
// any resources until it's marshalled, so the buffer can be ignored if this function fails.
//
// Assumptions:
//
// Notes:
// The events are sent form the target via code:Debugger::SendRawEvent
-// This just does a raw Byte copy, but does not do any Marshalling.
-// This should always succeed in the well-behaved case. However, A bad debuggee can
+// This just does a raw Byte copy, but does not do any Marshalling.
+// This should always succeed in the well-behaved case. However, A bad debuggee can
// always send a poor-formed debug event.
// We don't distinguish between a badly formed event and an event that's not ours.
// The event still needs to be Marshaled before being used. (see code:CordbProcess::MarshalManagedEvent)
//
//---------------------------------------------------------------------------------------
-#if defined(_MSC_VER) && defined(_TARGET_ARM_)
+#if defined(_MSC_VER) && defined(_TARGET_ARM_)
// This is a temporary workaround for an ARM specific MS C++ compiler bug (internal LKG build 18.1).
// Branch < if (ptrRemoteManagedEvent == NULL) > was always taken and the function always returned false.
// TODO: It should be removed once the bug is fixed.
#pragma optimize("", off)
#endif
bool CordbProcess::CopyManagedEventFromTarget(
- const EXCEPTION_RECORD * pRecord,
+ const EXCEPTION_RECORD * pRecord,
DebuggerIPCEvent * pLocalManagedEvent)
{
_ASSERTE(pRecord != NULL);
_ASSERTE(pLocalManagedEvent != NULL);
-
+
// Initialize the event enough such backout code can call code:DeleteIPCEventHelper.
pLocalManagedEvent->type = DB_IPCE_DEBUGGER_INVALID;
@@ -9875,40 +9884,40 @@ bool CordbProcess::CopyManagedEventFromTarget(
// For Mac remote debugging the address returned above is actually a local address.
// Also, we need to copy the entire buffer because once a debug event is read from the debugger
// transport, it won't be available afterwards.
- memcpy(reinterpret_cast<BYTE *>(pLocalManagedEvent),
- CORDB_ADDRESS_TO_PTR(ptrRemoteManagedEvent),
+ memcpy(reinterpret_cast<BYTE *>(pLocalManagedEvent),
+ CORDB_ADDRESS_TO_PTR(ptrRemoteManagedEvent),
CorDBIPC_BUFFER_SIZE);
hr = S_OK;
-#endif
- SIMPLIFYING_ASSUMPTION(SUCCEEDED(hr));
+#endif
+ SIMPLIFYING_ASSUMPTION(SUCCEEDED(hr));
IfFailThrow(hr);
return true;
}
-#if defined(_MSC_VER) && defined(_TARGET_ARM_)
+#if defined(_MSC_VER) && defined(_TARGET_ARM_)
#pragma optimize("", on)
#endif
//---------------------------------------------------------------------------------------
// EnsureClrInstanceIdSet - Ensure we have a CLR Instance ID to debug
-//
+//
// In Arrowhead scenarios, the debugger is required to pass a valid CLR instance ID
-// to us in OpenVirtualProcess. In V2 scenarios, for compatibility, we'll allow a
+// to us in OpenVirtualProcess. In V2 scenarios, for compatibility, we'll allow a
// CordbProcess object to exist for a process that doesn't yet have the CLR loaded.
// In this case the CLR instance ID will start off as 0, but be filled in when we see the
// startup exception indicating the CLR has been loaded.
//
// If we don't already have an instance ID, this function sets it to the only CLR in the
// target process. This requires that a CLR be loaded in the target process.
-//
+//
// Return Value:
// S_OK - if m_clrInstanceId was already set, or is now set to a valid CLR instance ID
-// an error HRESULT - if m_clrInstanceId was 0, and cannot be set to a valid value
+// an error HRESULT - if m_clrInstanceId was 0, and cannot be set to a valid value
// (i.e. because we cannot find a CLR in the target process).
-//
-// Note that we need to probe for this on attach, and it's common to attach before the
+//
+// Note that we need to probe for this on attach, and it's common to attach before the
// CLR has been loaded, so we avoid using exceptions for this common case.
-//
+//
HRESULT CordbProcess::EnsureClrInstanceIdSet()
{
// If we didn't expect a specific CLR, then attempt to attach to any.
@@ -9935,7 +9944,7 @@ HRESULT CordbProcess::EnsureClrInstanceIdSet()
_ASSERTE(m_clrInstanceId == 0);
return hr;
}
- }
+ }
// We've (now) got a valid CLR instance id
return S_OK;
@@ -9955,7 +9964,7 @@ HRESULT CordbProcess::EnsureClrInstanceIdSet()
//
// Notes:
// This is copying from a shared-memory block, which is treated as local memory.
-// This just does a raw Byte copy, but does not do any Marshalling.
+// This just does a raw Byte copy, but does not do any Marshalling.
// This does no validation on the event.
// The event still needs to be Marshaled before being used. (see code:CordbProcess::MarshalManagedEvent)
//
@@ -9975,9 +9984,9 @@ bool CordbRCEventThread::IsRCEventThread()
//---------------------------------------------------------------------------------------
// Runtime assert, throws CORDBG_E_TARGET_INCONSISTENT if the expression is not true.
-//
+//
// Arguments:
-// fExpression - assert parameter. If true, this function is a nop. If false,
+// fExpression - assert parameter. If true, this function is a nop. If false,
// this will throw a CORDBG_E_TARGET_INCONSISTENT error.
//
// Notes:
@@ -9987,7 +9996,7 @@ bool CordbRCEventThread::IsRCEventThread()
void CordbProcess::TargetConsistencyCheck(bool fExpression)
{
if (!fExpression)
- {
+ {
STRESS_LOG0(LF_CORDB, LL_INFO10000, "Target consistency check failed");
// When debugging possibly corrupt targets, this failure may be expected. For debugging purposes,
@@ -10135,7 +10144,7 @@ HRESULT CordbRCEventThread::SendIPCEvent(CordbProcess* process,
return CORDBG_E_PROCESS_TERMINATED;
}
- // If the helper thread has died, we can't send an IPC event (and it's never coming back either).
+ // If the helper thread has died, we can't send an IPC event (and it's never coming back either).
// Although we do wait on the thread's handle, there are strange windows where the thread's handle
// is not yet signaled even though we've continued from the exit-thread event for the helper.
if (process->m_helperThreadDead)
@@ -10321,8 +10330,8 @@ HRESULT CordbRCEventThread::SendIPCEvent(CordbProcess* process,
}
}
-
- process->ForceDacFlush();
+
+ process->ForceDacFlush();
// The hr and hrEvent are 2 very different things.
// hr tells us whether the event was sent successfully.
@@ -10351,7 +10360,7 @@ HRESULT CordbRCEventThread::SendIPCEvent(CordbProcess* process,
void CordbRCEventThread::FlushQueuedEvents(CordbProcess* process)
{
CONTRACTL
- {
+ {
NOTHROW; // This is happening on the RCET thread, so there's no place to propogate an error back up.
}
CONTRACTL_END;
@@ -10376,9 +10385,9 @@ void CordbRCEventThread::FlushQueuedEvents(CordbProcess* process)
// ShimProcess now, while we still hold the process lock. Once we release the lock,
// GetShim() may not work.
RSExtSmartPtr<ShimProcess> pShim(process->GetShim());
-
+
// Release lock before we call out to shim to Queue fake events.
- {
+ {
RSInverseLockHolder inverseLockHolder(process->GetProcessLock());
{
PUBLIC_CALLBACK_IN_THIS_SCOPE0_NO_LOCK(pProcess);
@@ -10443,7 +10452,7 @@ void CordbRCEventThread::FlushQueuedEvents(CordbProcess* process)
// None. Throws on error. On error, caller still owns the pManagedEvent and must free it.
//
// Assumptions:
-// This should be called once a notification event is received from the target.
+// This should be called once a notification event is received from the target.
//
// Notes:
// HandleRCEvent -- handle an IPC event received from the runtime controller.
@@ -10451,8 +10460,8 @@ void CordbRCEventThread::FlushQueuedEvents(CordbProcess* process)
//
//---------------------------------------------------------------------------------------
void CordbProcess::HandleRCEvent(
- DebuggerIPCEvent * pManagedEvent,
- RSLockHolder * pLockHolder,
+ DebuggerIPCEvent * pManagedEvent,
+ RSLockHolder * pLockHolder,
ICorDebugManagedCallback * pCallback)
{
CONTRACTL
@@ -10470,23 +10479,23 @@ void CordbProcess::HandleRCEvent(
}
// Marshals over some standard data from event.
- MarshalManagedEvent(pManagedEvent);
+ MarshalManagedEvent(pManagedEvent);
STRESS_LOG4(LF_CORDB, LL_INFO1000, "RCET::TP: Got %s for AD 0x%x, proc 0x%x(%d)\n",
IPCENames::GetName(pManagedEvent->type), VmPtrToCookie(pManagedEvent->vmAppDomain), this->m_id, this->m_id);
RSExtSmartPtr<ICorDebugManagedCallback2> pCallback2;
- pCallback->QueryInterface(IID_ICorDebugManagedCallback2, reinterpret_cast<void **> (&pCallback2));
+ pCallback->QueryInterface(IID_ICorDebugManagedCallback2, reinterpret_cast<void **> (&pCallback2));
RSExtSmartPtr<ICorDebugManagedCallback3> pCallback3;
- pCallback->QueryInterface(IID_ICorDebugManagedCallback3, reinterpret_cast<void **> (&pCallback3));
+ pCallback->QueryInterface(IID_ICorDebugManagedCallback3, reinterpret_cast<void **> (&pCallback3));
RSExtSmartPtr<ICorDebugManagedCallback4> pCallback4;
pCallback->QueryInterface(IID_ICorDebugManagedCallback4, reinterpret_cast<void **> (&pCallback4));
// Dispatch directly. May not necessarily dispatch an event.
// Toggles the lock to dispatch callbacks.
- RawDispatchEvent(pManagedEvent, pLockHolder, pCallback, pCallback2, pCallback3, pCallback4);
+ RawDispatchEvent(pManagedEvent, pLockHolder, pCallback, pCallback2, pCallback3, pCallback4);
}
//
@@ -10506,7 +10515,7 @@ void CordbRCEventThread::ProcessStateChanged()
//---------------------------------------------------------------------------------------
-// Primary loop of the Runtime Controller event thread. This routine loops during the
+// Primary loop of the Runtime Controller event thread. This routine loops during the
// debug session taking IPC events from the IPC block and calling out to process them.
//
// Arguments:
@@ -10594,7 +10603,7 @@ void CordbRCEventThread::ThreadProc()
for (pProcess = pHashTable->FindFirst(&hashFind); pProcess != NULL; pProcess = pHashTable->FindNext(&hashFind))
{
_ASSERTE(waitCount < MAXIMUM_WAIT_OBJECTS);
-
+
if( waitCount >= MAXIMUM_WAIT_OBJECTS )
{
break;
@@ -10608,7 +10617,7 @@ void CordbRCEventThread::ThreadProc()
// per-process mutex when checking the process's synchronized flag here.
if (!pProcess->GetSynchronized() && pProcess->IsSafeToSendEvents())
{
- STRESS_LOG2(LF_CORDB, LL_INFO1000, "RCET::TP: listening to process 0x%x(%d)\n",
+ STRESS_LOG2(LF_CORDB, LL_INFO1000, "RCET::TP: listening to process 0x%x(%d)\n",
pProcess->m_id, pProcess->m_id);
waitSet[waitCount] = pProcess->m_leftSideEventAvailable;
@@ -10640,7 +10649,7 @@ void CordbRCEventThread::ThreadProc()
// Flush the queue if necessary. Note, we only do this if we've actually received a SyncComplete message
// from this process. If we haven't received a SyncComplete yet, then we don't attempt to drain any
// queued events yet. They'll be drained when the SyncComplete event is actually received.
- if (pProcess->GetSyncCompleteRecv() &&
+ if (pProcess->GetSyncCompleteRecv() &&
(pProcess->GetShim() != NULL) &&
!pProcess->GetSynchronized())
{
@@ -10650,7 +10659,7 @@ void CordbRCEventThread::ThreadProc()
// handling an event. We can get here if the event raised by the LS is a duplicate
// creation event, which the shim discards without adding it to the event queue.
// See code:ShimProcess::IsDuplicateCreationEvent.
- //
+ //
// To continue, we need to increment the stop count first. Also, we can't call
// Continue() while holding the process lock.
pProcess->SetSynchronized(true);
@@ -10722,7 +10731,7 @@ void CordbRCEventThread::ThreadProc()
// This is the thread's real thread proc. It simply calls to the
// thread proc on the given object.
//
-/*static*/
+/*static*/
DWORD WINAPI CordbRCEventThread::ThreadProc(LPVOID parameter)
{
CordbRCEventThread * pThread = (CordbRCEventThread *) parameter;
@@ -10838,7 +10847,7 @@ void CordbRCEventThread::DrainWorkerQueue()
// S_OK on success. else failure.
//
// Assumptions:
-// Caller allocates
+// Caller allocates
//
// Notes:
// WaitForIPCEventFromProcess waits for an event from just the specified
@@ -10847,8 +10856,8 @@ void CordbRCEventThread::DrainWorkerQueue()
// process's event, too, which would get confusing.
//
// @dbgtodo - this function should eventually be obsolete once everything
-// is using DAC calls instead of helper-thread.
-//
+// is using DAC calls instead of helper-thread.
+//
//---------------------------------------------------------------------------------------
HRESULT CordbRCEventThread::WaitForIPCEventFromProcess(CordbProcess * pProcess,
CordbAppDomain * pAppDomain,
@@ -10861,7 +10870,7 @@ HRESULT CordbRCEventThread::WaitForIPCEventFromProcess(CordbProcess * pProcess,
do
{
- dwStatus = SafeWaitForSingleObject(pProcess,
+ dwStatus = SafeWaitForSingleObject(pProcess,
pProcess->m_leftSideEventAvailable,
CordbGetWaitTimeout());
@@ -10884,9 +10893,9 @@ HRESULT CordbRCEventThread::WaitForIPCEventFromProcess(CordbProcess * pProcess,
pProcess->MarshalManagedEvent(pEvent);
STRESS_LOG4(LF_CORDB, LL_INFO1000, "CRCET::SIPCE: Got %s for AD 0x%x, proc 0x%x(%d)\n",
- IPCENames::GetName(pEvent->type),
- VmPtrToCookie(pEvent->vmAppDomain),
- pProcess->m_id,
+ IPCENames::GetName(pEvent->type),
+ VmPtrToCookie(pEvent->vmAppDomain),
+ pProcess->m_id,
pProcess->m_id);
}
@@ -10939,11 +10948,11 @@ HRESULT CordbRCEventThread::Start()
return E_INVALIDARG;
}
- m_thread = CreateThread(NULL,
- 0,
+ m_thread = CreateThread(NULL,
+ 0,
&CordbRCEventThread::ThreadProc,
- (LPVOID) this,
- 0,
+ (LPVOID) this,
+ 0,
&m_threadId);
if (m_thread == NULL)
@@ -11007,7 +11016,7 @@ enum
//
//---------------------------------------------------------------------------------------
CordbWin32EventThread::CordbWin32EventThread(
- Cordb * pCordb,
+ Cordb * pCordb,
ShimProcess * pShim
) :
m_thread(NULL), m_threadControlEvent(NULL),
@@ -11088,7 +11097,7 @@ void CordbWin32EventThread::ThreadProc()
DbgRSThread::GetThread()->TakeVirtualLock(RSLock::LL_WIN32_EVENT_THREAD);
#endif
- // In V2, the debuggee decides what to do if the debugger rudely exits / detaches. (This is
+ // In V2, the debuggee decides what to do if the debugger rudely exits / detaches. (This is
// handled by host policy). With the OS native-debuggging pipeline, the debugger by default
// kills the debuggee if it exits. To emulate V2 behavior, we need to override that default.
BOOL fOk = m_pNativePipeline->DebugSetProcessKillOnExit(FALSE);
@@ -11115,7 +11124,7 @@ typedef DeleteIPCEventHolderHelper<DebuggerIPCEvent> DeleteIPCEventHolder;
// This must be called after an event is marshalled via code:CordbProcess::MarshalManagedEvent
//
// Arguments:
-// pManagedEvent - managed event to delete.
+// pManagedEvent - managed event to delete.
//
// Notes:
// This can delete a partially marshalled event.
@@ -11168,8 +11177,8 @@ void DeleteIPCEventHelper(DebuggerIPCEvent *pManagedEvent)
// Notes:
// This is called after caller does WaitForDebugEvent.
// Any exception this Filter does not recognize is treated as kNotClr.
-// Currently, this includes both managed-exceptions and unmanaged ones.
-// For interop-debugging, the interop logic will handle all kNotClr and triage if
+// Currently, this includes both managed-exceptions and unmanaged ones.
+// For interop-debugging, the interop logic will handle all kNotClr and triage if
// it's really a non-CLR exception.
//
//---------------------------------------------------------------------------------------
@@ -11177,7 +11186,7 @@ void CordbProcess::FilterClrNotification(
DebuggerIPCEvent * pManagedEvent,
RSLockHolder * pLockHolder,
ICorDebugManagedCallback * pCallback)
-{
+{
CONTRACTL
{
THROWS;
@@ -11192,7 +11201,7 @@ void CordbProcess::FilterClrNotification(
// we need to set LSEA/wait on LSER.
// 2) Sync-Complete (kind of like a special notification)
// Ping the helper
- // 3) Notifications (eg, Module-load):
+ // 3) Notifications (eg, Module-load):
// these are dispatched immediately.
// 4) Left-side Startup event
@@ -11200,13 +11209,13 @@ void CordbProcess::FilterClrNotification(
// IF we're synced, then we must be getting a "Reply".
bool fReply = this->GetSynchronized();
- LOG((LF_CORDB, LL_INFO10000, "CP::FCN - Received event %s; fReply: %d\n",
+ LOG((LF_CORDB, LL_INFO10000, "CP::FCN - Received event %s; fReply: %d\n",
IPCENames::GetName(pManagedEvent->type),
fReply));
- if (fReply)
- {
- //
+ if (fReply)
+ {
+ //
_ASSERTE(m_pShim != NULL);
//
// Case 1: Reply
@@ -11219,7 +11228,7 @@ void CordbProcess::FilterClrNotification(
GetEventChannel()->SaveEventFromLeftSide(pManagedEvent);
SetEvent(this->m_leftSideEventAvailable);
- // Some other thread called code:CordbRCEventThread::WaitForIPCEventFromProcess, and
+ // Some other thread called code:CordbRCEventThread::WaitForIPCEventFromProcess, and
// that will respond here and set the event.
DWORD dwResult = WaitForSingleObject(this->m_leftSideEventRead, CordbGetWaitTimeout());
@@ -11227,7 +11236,7 @@ void CordbProcess::FilterClrNotification(
if (dwResult != WAIT_OBJECT_0)
{
// The wait failed. This is probably WAIT_TIMEOUT which suggests a deadlock/assert on
- // the RCEventThread.
+ // the RCEventThread.
CONSISTENCY_CHECK_MSGF(false, ("WaitForSingleObject failed: %d", dwResult));
ThrowHR(CORDBG_E_TIMEOUT);
}
@@ -11240,12 +11249,12 @@ void CordbProcess::FilterClrNotification(
// Case 4: Left-side startup event. We'll mark that we're attached from oop.
//
- // Now that LS is started, we should definitely be able to instantiate DAC.
+ // Now that LS is started, we should definitely be able to instantiate DAC.
InitializeDac();
-
+
// @dbgtodo 'attach-bit': we don't want the debugger automatically invading the process.
- GetDAC()->MarkDebuggerAttached(TRUE);
- }
+ GetDAC()->MarkDebuggerAttached(TRUE);
+ }
else if (pManagedEvent->type == DB_IPCE_SYNC_COMPLETE)
{
// Since V3 doesn't request syncs, it shouldn't get sync-complete.
@@ -11268,7 +11277,7 @@ void CordbProcess::FilterClrNotification(
HandleRCEvent(pManagedEvent, pLockHolder, pCallback);
} // end Notification
- }
+ }
}
@@ -11284,10 +11293,10 @@ void CordbProcess::FilterClrNotification(
//
// Notes:
// This is called from shim to emulate being synchronized at an unhandled
-// exception.
+// exception.
// Other ICorDebug operations could calls this (eg, func-eval at 2nd chance).
BOOL CordbProcess::HijackThreadForUnhandledExceptionIfNeeded(DWORD dwThreadId)
-{
+{
PUBLIC_API_ENTRY(this); // from Shim
BOOL fHijacked = FALSE;
@@ -11297,13 +11306,13 @@ BOOL CordbProcess::HijackThreadForUnhandledExceptionIfNeeded(DWORD dwThreadId)
RSLockHolder lockHolder(GetProcessLock());
// OS will not execute the Unhandled Exception Filter under native debugger, so
- // we need to hijack the thread to get it to execute the UEF, which will then do
+ // we need to hijack the thread to get it to execute the UEF, which will then do
// work for unhandled managed exceptions.
CordbThread * pThread = TryLookupOrCreateThreadByVolatileOSId(dwThreadId);
if (pThread != NULL)
- {
+ {
// If the thread has a managed exception, then we should have a pThread object.
-
+
if (pThread->HasUnhandledNativeException())
{
_ASSERTE(pThread->IsThreadExceptionManaged()); // should have been marked earlier
@@ -11329,12 +11338,12 @@ BOOL CordbProcess::HijackThreadForUnhandledExceptionIfNeeded(DWORD dwThreadId)
//
// Returns:
// A type-safe exception record from the raw buffer.
-//
+//
// Notes:
// This is a helper for code:CordbProcess::Filter.
// This can do consistency checks on the incoming parameters such as:
// * verify countBytes matches the expected size for the given format.
-// * verify the format is supported.
+// * verify the format is supported.
//
// If we let a given ICD understand multiple formats (eg, have x86 understand both Exr32 and
// Exr64), this would be the spot to allow the conversion.
@@ -11362,14 +11371,14 @@ const EXCEPTION_RECORD * CordbProcess::ValidateExceptionRecord(
ThrowHR(E_INVALIDARG);
}
#endif
-
+
// @dbgtodo cross-plat: once we do cross-plat, need to use correct EXCEPTION_RECORD variant.
if (countBytes != sizeof(EXCEPTION_RECORD))
{
ThrowHR(E_INVALIDARG);
}
-
+
const EXCEPTION_RECORD * pRecord = reinterpret_cast<const EXCEPTION_RECORD *> (pRawRecord);
return pRecord;
@@ -11385,21 +11394,21 @@ HRESULT CordbProcess::SetEnableCustomNotification(ICorDebugClass * pClass, BOOL
((CordbClass *)pClass)->SetCustomNotifications(fEnable);
- PUBLIC_API_END(hr);
+ PUBLIC_API_END(hr);
return hr;
} // CordbProcess::SetEnableCustomNotification
//---------------------------------------------------------------------------------------
// Public implementation of ICDProcess4::Filter
//
-// Arguments:
+// Arguments:
// pRawRecord - non-null raw bytes of the exception
// countBytes - number of bytes in pRawRecord buffer.
// format - format of pRawRecord
// dwFlags - flags providing auxillary info for exception record.
// dwThreadId - thread that exception occurred on.
// pCallback - callback to dispatch potential managed events on.
-// pContinueStatus - Continuation status for exception. This dictates what
+// pContinueStatus - Continuation status for exception. This dictates what
// to pass to kernel32!ContinueDebugEvent().
//
// Return Value:
@@ -11410,19 +11419,19 @@ HRESULT CordbProcess::SetEnableCustomNotification(ICorDebugClass * pClass, BOOL
//
// Notes:
// The exception could be anything, including:
-// - a CLR notification,
+// - a CLR notification,
// - a random managed exception (both from managed code or the runtime),
// - a non-CLR exception
//
// This is cross-platform. The {pRawRecord, countBytes, format} describe events
// on an arbitrary target architecture. On windows, this will be an EXCEPTION_RECORD.
-//
+//
HRESULT CordbProcess::Filter(
const BYTE pRawRecord[],
DWORD countBytes,
CorDebugRecordFormat format,
- DWORD dwFlags,
- DWORD dwThreadId,
+ DWORD dwFlags,
+ DWORD dwThreadId,
ICorDebugManagedCallback * pCallback,
DWORD * pContinueStatus
)
@@ -11443,7 +11452,7 @@ HRESULT CordbProcess::Filter(
DWORD dwFirstChance = (dwFlags & IS_FIRST_CHANCE);
//
- // Deal with 2nd-chance exceptions. Don't actually hijack now (that's too invasive),
+ // Deal with 2nd-chance exceptions. Don't actually hijack now (that's too invasive),
// but mark that we have the exception in case a future operation (eg, func-eval) needs to hijack.
//
if (!dwFirstChance)
@@ -11451,16 +11460,16 @@ HRESULT CordbProcess::Filter(
CordbThread * pThread = TryLookupOrCreateThreadByVolatileOSId(dwThreadId);
// If we don't have a managed-thread object, then it certainly can't have a throwable.
- // It's possible this is still an exception from the native portion of the runtime,
+ // It's possible this is still an exception from the native portion of the runtime,
// but that's ok, we'll just treat it as a native exception.
// This could be expensive, don't want to do it often... (definitely not on every Filter).
// OS will not execute the Unhandled Exception Filter under native debugger, so
- // we need to hijack the thread to get it to execute the UEF, which will then do
+ // we need to hijack the thread to get it to execute the UEF, which will then do
// work for unhandled managed exceptions.
if ((pThread != NULL) && pThread->IsThreadExceptionManaged())
- {
+ {
// Copy exception record for future use in case we decide to hijack.
pThread->SetUnhandledNativeException(pRecord);
}
@@ -11475,30 +11484,30 @@ HRESULT CordbProcess::Filter(
//
// This may not be for us, or we may not have a managed thread object:
// 1. Anybody can raise an exception with this exception code, so can't assume this belongs to us yet.
- // 2. Notifications may come on unmanaged threads if they're coming from MDAs or CLR internal events
+ // 2. Notifications may come on unmanaged threads if they're coming from MDAs or CLR internal events
// fired before the thread is created.
//
BYTE * pManagedEventBuffer = new BYTE[CorDBIPC_BUFFER_SIZE];
DeleteIPCEventHolder pManagedEvent(reinterpret_cast<DebuggerIPCEvent *>(pManagedEventBuffer));
-
+
bool fOwner = CopyManagedEventFromTarget(pRecord, pManagedEvent);
if (fOwner)
{
// This toggles the lock if it dispatches callbacks
FilterClrNotification(pManagedEvent, GET_PUBLIC_LOCK_HOLDER(), pCallback);
-
+
// Cancel any notification events from target. These are just supposed to notify ICD and not
// actually be real exceptions in the target.
// Canceling here also prevents a VectoredExceptionHandler in the target from picking
// up exceptions for the CLR.
- *pContinueStatus = DBG_CONTINUE;
+ *pContinueStatus = DBG_CONTINUE;
}
// holder will invoke DeleteIPCEventHelper(pManagedEvent).
}
- }
- PUBLIC_API_END(hr);
+ }
+ PUBLIC_API_END(hr);
// we may not find the correct mscordacwks so fail gracefully
_ASSERTE(SUCCEEDED(hr) || (hr != HRESULT_FROM_WIN32(ERROR_MOD_NOT_FOUND)));
@@ -11516,20 +11525,20 @@ HRESULT CordbProcess::Filter(
//
// Notes:
// Initial continue status is returned from code:CordbProcess::Filter.
-// Some operations (mainly hijacking on a 2nd-chance exception), may need to
+// Some operations (mainly hijacking on a 2nd-chance exception), may need to
// override that continue status.
// ICorDebug operations invoke a callback on the data-target to notify the debugger
// of a change in status. Debugger may fail the request.
//
void CordbProcess::ContinueStatusChanged(DWORD dwThreadId, CORDB_CONTINUE_STATUS dwContinueStatus)
-{
+{
HRESULT hr = m_pMutableDataTarget->ContinueStatusChanged(dwThreadId, dwContinueStatus);
IfFailThrow(hr);
}
//---------------------------------------------------------------------------------------
// Request a synchronization to occur after a debug event is dispatched.
-//
+//
// Note:
// This is called in response to a managed debug event, and so we know that we have
// a worker thread in the process (the one that just sent the event!)
@@ -11552,7 +11561,7 @@ void CordbProcess::RequestSyncAtEvent()
// None.
//
// Notes:
-// This is it, you've found it, the main guy. This function loops as long as the
+// This is it, you've found it, the main guy. This function loops as long as the
// debugger is around calling the OS WaitForDebugEvent() API. It takes the OS Debug
// Event and filters it thru the right-side, continuing the process if not recognized.
//
@@ -11567,7 +11576,7 @@ void CordbWin32EventThread::Win32EventLoop()
DEBUG_EVENT event;
-
+
// Allow the timeout for WFDE to be adjustable. Default to 25 ms based off perf numbers (see issue VSWhidbey 132368).
DWORD dwWFDETimeout = CLRConfig::GetConfigValue(CLRConfig::UNSUPPORTED_DbgWFDETimeout);
@@ -11597,7 +11606,7 @@ void CordbWin32EventThread::Win32EventLoop()
if (m_pProcess != NULL)
{
// Process is always built on Native debugging pipeline, so it needs to always be prepared to call WFDE
- // As an optimization, if the target is stopped, then we can avoid calling WFDE.
+ // As an optimization, if the target is stopped, then we can avoid calling WFDE.
{
#ifndef FEATURE_INTEROP_DEBUGGING
// Managed-only, never win32 stopped, so always check for an event.
@@ -11611,7 +11620,7 @@ void CordbWin32EventThread::Win32EventLoop()
const bool fIsInteropDebugging = m_pProcess->IsInteropDebugging();
(void)fIsInteropDebugging; //prevent "unused variable" error from GCC
-
+
// Assert checks
_ASSERTE(fIsInteropDebugging == m_pShim->IsInteropDebugging());
@@ -11620,14 +11629,14 @@ void CordbWin32EventThread::Win32EventLoop()
dwWaitTimeout = 0;
fEventAvailable = m_pNativePipeline->WaitForDebugEvent(&event, dwWFDETimeout, m_pProcess);
}
- else
+ else
{
// If we're managed-only debugging, then the process should always be running,
// which means we always need to be calling WFDE to pump potential debug events.
// If we're interop-debugging, then the process can be stopped at a native-debug event,
// in which case we don't have to call WFDE until we resume it again.
- // So we can only skip the WFDE when we're interop-debugging.
- _ASSERTE(fIsInteropDebugging);
+ // So we can only skip the WFDE when we're interop-debugging.
+ _ASSERTE(fIsInteropDebugging);
}
#endif // FEATURE_INTEROP_DEBUGGING
}
@@ -11732,17 +11741,17 @@ void CordbWin32EventThread::Win32EventLoop()
// Must flush the dac cache since we were just running.
m_pProcess->ForceDacFlush();
-
+
// So we've filtered out CLR events.
// Let the shim handle the remaining events. This will call back into Filter() if appropriate.
// This will also ensure the debug event gets continued.
HRESULT hrShim = S_OK;
{
PUBLIC_CALLBACK_IN_THIS_SCOPE0_NO_LOCK(NULL);
- hrShim = m_pShim->HandleWin32DebugEvent(&event);
+ hrShim = m_pShim->HandleWin32DebugEvent(&event);
}
// Any errors from the shim (eg. failure to load DAC) are unrecoverable
- SetUnrecoverableIfFailed(m_pProcess, hrShim);
+ SetUnrecoverableIfFailed(m_pProcess, hrShim);
} // loop
@@ -11767,13 +11776,13 @@ bool CordbProcess::IsWin32EventThread()
//---------------------------------------------------------------------------------------
// Call when the sync complete event is received and can be processed.
-//
+//
// Notes:
// This is called when the RS gets the sync-complete from the LS and can process it.
-//
+//
// This has a somewhat elaborate contract to fill between Interop-debugging, Async-Break, draining the
// managed event-queue, and coordinating with the dispatch thread (RCET).
-//
+//
// @dbgtodo - this should eventually get hoisted into the shim.
void CordbProcess::HandleSyncCompleteRecieved()
{
@@ -11784,7 +11793,7 @@ void CordbProcess::HandleSyncCompleteRecieved()
// If some thread is waiting for the process to sync, notify that it can go now.
if (this->m_stopRequested)
{
- this->SetSynchronized(true);
+ this->SetSynchronized(true);
SetEvent(this->m_stopWaitEvent);
}
else
@@ -11817,7 +11826,7 @@ void CordbProcess::HandleSyncCompleteRecieved()
//
//
// Notes:
-// Thread may be newly allocated, or may be existing. CordbProcess holds
+// Thread may be newly allocated, or may be existing. CordbProcess holds
// list of all CordbUnmanagedThreads, and will handle freeing memory.
//
//---------------------------------------------------------------------------------------
@@ -11833,25 +11842,25 @@ CordbUnmanagedThread * CordbProcess::GetUnmanagedThreadFromEvent(const DEBUG_EVE
{
// We absolutely should have an unmanaged callback by this point.
// That means that the client debugger should have called ICorDebug::SetUnmanagedHandler by now.
- // However, we can't actually enforce that (see comment in ICorDebug::SetUnmanagedHandler for details),
- // so we do a runtime check to check this.
+ // However, we can't actually enforce that (see comment in ICorDebug::SetUnmanagedHandler for details),
+ // so we do a runtime check to check this.
// This is an extremely gross API misuse and an issue in the client if the callback is not set yet.
- // Without the unmanaged callback, we absolutely can't do interop-debugging. We assert (checked builds) and
+ // Without the unmanaged callback, we absolutely can't do interop-debugging. We assert (checked builds) and
// dispatch unrecoverable error (retail builds) to avoid an AV.
if (this->m_cordb->m_unmanagedCallback == NULL)
{
- CONSISTENCY_CHECK_MSGF((this->m_cordb->m_unmanagedCallback != NULL),
- ("GROSS API misuse!!\nNo unmanaged callback set by the time we've received CreateProcess debug event for proces 0x%x.\n",
+ CONSISTENCY_CHECK_MSGF((this->m_cordb->m_unmanagedCallback != NULL),
+ ("GROSS API misuse!!\nNo unmanaged callback set by the time we've received CreateProcess debug event for proces 0x%x.\n",
pEvent->dwProcessId));
-
+
CORDBSetUnrecoverableError(this, CORDBG_E_INTEROP_NOT_SUPPORTED, 0);
// Returning NULL will tell caller not to dispatch event to client. We have no callback object to dispatch upon.
return NULL;
}
-
+
pUnmanagedThread = this->HandleUnmanagedCreateThread(pEvent->dwThreadId,
pEvent->u.CreateProcessInfo.hThread,
pEvent->u.CreateProcessInfo.lpThreadLocalBase);
@@ -11875,7 +11884,7 @@ CordbUnmanagedThread * CordbProcess::GetUnmanagedThreadFromEvent(const DEBUG_EVE
// If we have the debugger control block, and if that control block has the address of the thread proc for
// the helper thread, then we're initialized enough on the Left Side to recgonize the helper thread based on
// its thread proc's address.
- if (this->GetDCB() != NULL)
+ if (this->GetDCB() != NULL)
{
// get the latest LS DCB information
UpdateRightSideDCB();
@@ -11896,7 +11905,7 @@ CordbUnmanagedThread * CordbProcess::GetUnmanagedThreadFromEvent(const DEBUG_EVE
EX_CATCH_HRESULT(hr)
{
if (fBlockExists && FAILED(hr))
- {
+ {
_ASSERTE(IsLegalFatalError(hr));
// Send up the DebuggerError event
this->UnrecoverableError(hr, 0, NULL, 0);
@@ -11905,7 +11914,7 @@ CordbUnmanagedThread * CordbProcess::GetUnmanagedThreadFromEvent(const DEBUG_EVE
// RS will pump events until we LS process exits.
TerminateProcess(this->m_handle, hr);
- return pUnmanagedThread;
+ return pUnmanagedThread;
}
}
}
@@ -12218,7 +12227,7 @@ Reaction CordbProcess::Triage1stChanceNonSpecial(CordbUnmanagedThread * pUnmanag
}
else if (dwExCode == EXCEPTION_MSVC)
{
- // The runtime may use C++ exceptions internally. We can still report these
+ // The runtime may use C++ exceptions internally. We can still report these
// to the debugger as long as we're outside of a can't-stop region.
if (pUnmanagedThread->IsCantStop())
{
@@ -12268,7 +12277,7 @@ Reaction CordbProcess::Triage1stChanceNonSpecial(CordbUnmanagedThread * pUnmanag
else
{
return REACTION(cInband);
- }
+ }
}
UNREACHABLE();
@@ -12290,12 +12299,12 @@ Reaction CordbProcess::Triage1stChanceNonSpecial(CordbUnmanagedThread * pUnmanag
//
// Notes:
// A 1st-chance event has a wide spectrum of possibility including:
-// - It may be unmanaged or managed.
-// - Or it may be an execution control exception for managed-exceution
+// - It may be unmanaged or managed.
+// - Or it may be an execution control exception for managed-exceution
// - thread skipping an OOB event.
//
//---------------------------------------------------------------------------------------
-Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnmanagedThread,
+Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnmanagedThread,
const DEBUG_EVENT * pEvent)
{
_ASSERTE(ThreadHoldsProcessLock());
@@ -12422,8 +12431,8 @@ Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnman
{
// If we Single-Step over an exception, then the OS never gives us the single-step event.
// Thus if we're skipping a native patch, we don't care what exception event we got.
- LOG((LF_CORDB, LL_INFO100000, "Done skipping native patch. Ex=0x%x\n, IsSS=%d",
- dwExCode,
+ LOG((LF_CORDB, LL_INFO100000, "Done skipping native patch. Ex=0x%x\n, IsSS=%d",
+ dwExCode,
(dwExCode == STATUS_SINGLE_STEP)));
// This is the 2nd half of skipping a native patch.
@@ -12440,9 +12449,9 @@ Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnman
CONSISTENCY_CHECK_MSGF(dwExCode != STATUS_SINGLE_STEP, (
"Single-Step exception on helper thread (tid=0x%x/%d) in debuggee process (pid=0x%x/%d).\n"
"For more information, attach a debuggee non-invasively to the LS to get the callstack.\n",
- pUnmanagedThread->m_id,
- pUnmanagedThread->m_id,
- this->m_id,
+ pUnmanagedThread->m_id,
+ pUnmanagedThread->m_id,
+ this->m_id,
this->m_id));
// We ignore any first chance exceptions from the helper thread. There are lots of places
@@ -12465,9 +12474,9 @@ Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnman
CONSISTENCY_CHECK_MSGF((dwExCode != STATUS_BREAKPOINT), (
"Assert on helper thread (tid=0x%x/%d) in debuggee process (pid=0x%x/%d).\n"
"For more information, attach a debuggee non-invasively to the LS to get the callstack.\n",
- pUnmanagedThread->m_id,
- pUnmanagedThread->m_id,
- this->m_id,
+ pUnmanagedThread->m_id,
+ pUnmanagedThread->m_id,
+ this->m_id,
this->m_id));
// These breakpoint and single step exceptions have to be dispatched to the debugger as
@@ -12528,13 +12537,13 @@ Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnman
return REACTION(cOOB);
}
- // If generichijacked and its not a flare, and the address referenced is on the stack then we've
- // got our special stack overflow case. Take off generic hijacked, mark that the helper thread
+ // If generichijacked and its not a flare, and the address referenced is on the stack then we've
+ // got our special stack overflow case. Take off generic hijacked, mark that the helper thread
// is dead, throw this event on the floor, and pop anyone in SendIPCEvent out of their wait.
pUnmanagedThread->ClearState(CUTS_GenericHijacked);
-
+
this->m_helperThreadDead = true;
-
+
// This only works on Windows, not on Mac. We don't support interop-debugging on Mac anyway.
SetEvent(m_pEventChannel->GetRightSideEventAckHandle());
@@ -12591,8 +12600,8 @@ Reaction CordbProcess::TriageExcep1stChanceAndInit(CordbUnmanagedThread * pUnman
// Called when receiving a debug event when the process is stopped.
//
// Notes:
-// We already hijacked 2nd-chance managed exceptions, so this is just handling
-// some V2 Interop corner cases.
+// We already hijacked 2nd-chance managed exceptions, so this is just handling
+// some V2 Interop corner cases.
// @dbgtodo interop: this should eventually completely go away with the V3 design.
//
//---------------------------------------------------------------------------------------
@@ -12651,7 +12660,7 @@ Reaction CordbProcess::TriageExcep2ndChanceAndInit(CordbUnmanagedThread * pUnman
// from them and hope for the best.
return REACTION(cCLR);
}
-
+
if(pUnmanagedThread->IsCantStop())
{
return REACTION(cOOB);
@@ -12848,8 +12857,8 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
{
// Note: we use ContinueDebugEvent directly here since our continue is very simple and all of our other
// continue mechanisms rely on having an UnmanagedThread object to play with ;)
- STRESS_LOG2(LF_CORDB, LL_INFO1000, "W32ET::W32EL: Continuing without thread on tid 0x%x, code=0x%x\n",
- pEvent->dwThreadId,
+ STRESS_LOG2(LF_CORDB, LL_INFO1000, "W32ET::W32EL: Continuing without thread on tid 0x%x, code=0x%x\n",
+ pEvent->dwThreadId,
pEvent->dwDebugEventCode);
this->m_state &= ~CordbProcess::PS_WIN32_STOPPED;
@@ -12862,13 +12871,13 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
}
// There's an innate race such that we can get a Debug Event even after we've suspended a thread.
- // This can happen if the thread has already dispatched the debug event but we haven't called WFDE to pick it up
+ // This can happen if the thread has already dispatched the debug event but we haven't called WFDE to pick it up
// yet. This is sufficiently goofy that we want to stress log it.
if (pUnmanagedThread->IsSuspended())
{
STRESS_LOG1(LF_CORDB, LL_INFO1000, "W32ET::W32EL: Thread 0x%x is suspended\n", pEvent->dwThreadId);
}
-
+
// For debugging crazy races in retail, we'll keep a rolling queue of win32 debug events.
this->DebugRecordWin32Event(pEvent, pUnmanagedThread);
@@ -12914,9 +12923,9 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
// Stress-log the reaction.
#ifdef _DEBUG
- STRESS_LOG3(LF_CORDB, LL_INFO1000, "Reaction: %d (%s), line=%d\n",
- reaction.GetType(),
- reaction.GetReactionName(),
+ STRESS_LOG3(LF_CORDB, LL_INFO1000, "Reaction: %d (%s), line=%d\n",
+ reaction.GetType(),
+ reaction.GetReactionName(),
reaction.GetLine());
#else
STRESS_LOG1(LF_CORDB, LL_INFO1000, "Reaction: %d\n", reaction.GetType());
@@ -12950,13 +12959,13 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
// Shouldn't be suspending in the first place with outstanding flares.
_ASSERTE(!pUnmanagedThread->IsSuspended());
-
+
pW32EventThread->ForceDbgContinue(this, pUnmanagedThread, DBG_CONTINUE, false);
goto LDone;
case Reaction::cCLR:
// Don't care if thread is suspended here. We'll just let the thread continue whatever it's doing.
-
+
this->m_DbgSupport.m_TotalCLR++;
// If this is for the CLR, then we just continue unhandled and know that the CLR has
@@ -12986,8 +12995,8 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
// CLR internal exceptions should be sent back to the CLR and never treated as inband events.
// If this assert fires, the event was triaged wrong.
- CONSISTENCY_CHECK_MSGF((pEvent->u.Exception.ExceptionRecord.ExceptionCode != EXCEPTION_COMPLUS),
- ("Attempting to dispatch a CLR internal exception as an Inband event. Reaction line=%d\n",
+ CONSISTENCY_CHECK_MSGF((pEvent->u.Exception.ExceptionRecord.ExceptionCode != EXCEPTION_COMPLUS),
+ ("Attempting to dispatch a CLR internal exception as an Inband event. Reaction line=%d\n",
reaction.GetLine()));
@@ -13001,16 +13010,16 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
// 2) If the process is synchronized (since that means we've already dispatched a managed event).
// 3) If we've received a SyncComplete event, but aren't yet Sync. This will almost always be the same as
// whether we're synced, but has a distict quality. It's always set by the w32 event thread in Interop,
- // and so it's guaranteed to be serialized against this check here (also on the w32et).
+ // and so it's guaranteed to be serialized against this check here (also on the w32et).
// 4) Special deferment - This covers the region where we're sending a Stop/Continue IPC event across.
// We defer it here to keep the Helper thread alive so that it can handle these IPC events.
// Queued events will be dispatched when continue is called.
BOOL fHasUserUncontinuedNativeEvents = HasUserUncontinuedNativeEvents();
bool fDeferInbandEvent = (fHasUserUncontinuedNativeEvents ||
- GetSynchronized() ||
+ GetSynchronized() ||
GetSyncCompleteRecv() ||
m_specialDeferment);
-
+
// If we've got a new event, queue it.
if (fNewEvent)
{
@@ -13036,14 +13045,14 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
{
// No need to defer the dispatch, do it now
this->DispatchUnmanagedInBandEvent();
-
+
goto LDone;
}
UNREACHABLE();
}
-
+
case Reaction::cFirstChanceHijackStarted:
- {
+ {
// determine the logical event we are handling, if any
CordbUnmanagedEvent* pUnmanagedEvent = NULL;
if(pUnmanagedThread->HasIBEvent())
@@ -13065,7 +13074,7 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
{
// there should be an event we hijacked in this case
_ASSERTE(pUnmanagedEvent != NULL);
-
+
// block that event
LOG((LF_CORDB, LL_INFO100000, "W32ET::W32EL: blocking\n"));
fcd.action = HIJACK_ACTION_WAIT;
@@ -13088,7 +13097,7 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
case Reaction::cInbandHijackComplete:
{
// We now execute the hijack worker even when not actually hijacked
- // so can't assert this
+ // so can't assert this
//_ASSERTE(pUnmanagedThread->IsFirstChanceHijacked());
// we should not be stepping at the end of hijacks
@@ -13246,9 +13255,9 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
{
pUnmanagedThread->EndStepping();
}
- pW32EventThread->ForceDbgContinue(this, pUnmanagedThread,
+ pW32EventThread->ForceDbgContinue(this, pUnmanagedThread,
pUnmanagedEvent->IsExceptionCleared() ? DBG_CONTINUE : DBG_EXCEPTION_NOT_HANDLED, false);
-
+
// We've handled this event. Skip further processing.
goto LDone;
}
@@ -13257,7 +13266,7 @@ void CordbProcess::HandleDebugEventForInteropDebugging(const DEBUG_EVENT * pEven
{
// Don't care if this thread claimed to be suspended or not. Dispatch event anyways. After all,
// OOB events can come at *any* time.
-
+
// This thread may be suspended. We don't care.
this->m_DbgSupport.m_TotalOOB++;
@@ -13369,13 +13378,13 @@ bool CordbProcess::ExceptionIsFlare(DWORD exceptionCode, const void *exceptionAd
#endif // FEATURE_INTEROP_DEBUGGING
// Allocate a buffer in the target and copy data into it.
-//
+//
// Arguments:
-// pDomain - an appdomain associated with the allocation request.
+// pDomain - an appdomain associated with the allocation request.
// bufferSize - size of the buffer in bytes
// bufferFrom - local buffer of data (bufferSize bytes) to copy data from.
// ppRes - address into target of allocated buffer
-//
+//
// Returns:
// S_OK on success, else error.
HRESULT CordbProcess::GetAndWriteRemoteBuffer(CordbAppDomain *pDomain, unsigned int bufferSize, const void *bufferFrom, void **ppRes)
@@ -13389,7 +13398,7 @@ HRESULT CordbProcess::GetAndWriteRemoteBuffer(CordbAppDomain *pDomain, unsigned
{
TargetBuffer tbTarget = GetRemoteBuffer(bufferSize); // throws
SafeWriteBuffer(tbTarget, (const BYTE*) bufferFrom); // throws
-
+
// Succeeded.
*ppRes = CORDB_ADDRESS_TO_PTR(tbTarget.pAddress);
}
@@ -13522,7 +13531,7 @@ void EnableDebugTrace(CordbUnmanagedThread *ut)
#endif // _DEBUG
//-----------------------------------------------------------------------------
-// DoDbgContinue
+// DoDbgContinue
//
// Continues from a specific Win32 DEBUG_EVENT.
//
@@ -13531,7 +13540,7 @@ void EnableDebugTrace(CordbUnmanagedThread *ut)
// pUnmanagedEvent - The event to continue.
//
//-----------------------------------------------------------------------------
-void CordbWin32EventThread::DoDbgContinue(CordbProcess *pProcess,
+void CordbWin32EventThread::DoDbgContinue(CordbProcess *pProcess,
CordbUnmanagedEvent *pUnmanagedEvent)
{
_ASSERTE(pProcess->ThreadHoldsProcessLock());
@@ -13586,7 +13595,7 @@ void CordbWin32EventThread::DoDbgContinue(CordbProcess *pProcess,
_ASSERTE(!pUnmanagedEvent->IsEventContinuedUnhijacked());
pUnmanagedEvent->SetState(CUES_EventContinuedUnhijacked);
dwContType = pUnmanagedEvent->IsExceptionCleared() ? GetDbgContinueFlag() : DBG_EXCEPTION_NOT_HANDLED;
-
+
// The event was never hijacked and so will never need to retrigger, get rid
// of it right now. If it had been hijacked then we would dequeue it either after the
// hijack complete flare or one instruction after that when it has had a chance to retrigger
@@ -13638,11 +13647,11 @@ void CordbWin32EventThread::DoDbgContinue(CordbProcess *pProcess,
{
LOG((LF_CORDB, LL_INFO1000, "W32ET::DDC: Continuing from LdrBp, doing managed attach.\n"));
pProcess->QueueManagedAttachIfNeededWorker();
- }
+ }
EX_CATCH_HRESULT(hrIgnore);
SIMPLIFYING_ASSUMPTION(SUCCEEDED(hrIgnore));
}
- }
+ }
STRESS_LOG4(LF_CORDB, LL_INFO1000,
"W32ET::DDC: calling ContinueDebugEvent(0x%x, 0x%x, 0x%x), process state=0x%x\n",
@@ -13810,7 +13819,7 @@ HRESULT CordbWin32EventThread::SendCreateProcessEvent(
{
DWORD ret = WaitForSingleObject(m_actionTakenEvent, INFINITE);
- LOG((LF_CORDB, LL_EVERYTHING, "Process Handle is: %x, m_threadControlEvent is %x\n",
+ LOG((LF_CORDB, LL_EVERYTHING, "Process Handle is: %x, m_threadControlEvent is %x\n",
(UINT_PTR)m_actionData.createData.lpProcessInformation->hProcess, (UINT_PTR)m_threadControlEvent));
if (ret == WAIT_OBJECT_0)
@@ -13833,7 +13842,7 @@ HRESULT CordbWin32EventThread::SendCreateProcessEvent(
//
// Assumptions:
// This occurs on the win32 event thread. It is invokved via
-// a message sent from code:CordbWin32EventThread::SendCreateProcessEvent
+// a message sent from code:CordbWin32EventThread::SendCreateProcessEvent
//
// Notes:
// Create a new process. This is called in the context of the Win32
@@ -13853,7 +13862,7 @@ void CordbWin32EventThread::CreateProcess()
// Win32 debugging this process. Otherwise, we have to create
// suspended to give us time to setup up our side of the IPC
// channel.
- BOOL fInteropDebugging =
+ BOOL fInteropDebugging =
#if defined(FEATURE_INTEROP_DEBUGGING)
(dwCreationFlags & (DEBUG_PROCESS | DEBUG_ONLY_THIS_PROCESS));
#else
@@ -13896,17 +13905,17 @@ void CordbWin32EventThread::CreateProcess()
// Remember the process in the global list of processes.
if (SUCCEEDED(hr))
- {
+ {
EX_TRY
{
// Mark if we're interop-debugging
if (fInteropDebugging)
{
- pProcess->EnableInteropDebugging();
+ pProcess->EnableInteropDebugging();
}
m_cordb->AddProcess(pProcess); // will take ref if it succeeds
- }
+ }
EX_CATCH_HRESULT(hr);
}
@@ -13916,7 +13925,7 @@ void CordbWin32EventThread::CreateProcess()
if (SUCCEEDED(hr))
{
_ASSERTE(m_pProcess == NULL);
- m_pProcess.Assign(pProcess);
+ m_pProcess.Assign(pProcess);
}
}
@@ -14030,7 +14039,7 @@ void CordbProcess::CleanupHalfBakedLeftSide()
}
EX_CATCH
{
- _ASSERTE(!"Writing process memory failed, perhaps due to an unexpected disconnection from the target.");
+ _ASSERTE(!"Writing process memory failed, perhaps due to an unexpected disconnection from the target.");
}
EX_END_CATCH(SwallowAllExceptions);
}
@@ -14039,10 +14048,10 @@ void CordbProcess::CleanupHalfBakedLeftSide()
CloseIPCHandles();
m_cordb.Clear();
-
+
// This process object is Dead-On-Arrival, so it doesn't really have anything to neuter.
// But for safekeeping, we'll mark it as neutered.
- UnsafeNeuterDeadObject();
+ UnsafeNeuterDeadObject();
}
@@ -14052,8 +14061,8 @@ void CordbProcess::CleanupHalfBakedLeftSide()
//
//
// Assumptions:
-// Called on W32Event Thread, in response to event sent by
-// code:CordbWin32EventThread::SendDebugActiveProcessEvent
+// Called on W32Event Thread, in response to event sent by
+// code:CordbWin32EventThread::SendDebugActiveProcessEvent
//
// Notes:
// Attach to a process. This is called in the context of the Win32
@@ -14079,8 +14088,8 @@ void CordbWin32EventThread::AttachProcess()
// Always do OS attach to the target.
// By this point, the pid should be valid (because OpenProcess above), pending some race where the process just exited.
- // The OS will enforce that only 1 debugger is attached.
- // Common failure paths here would be: access denied, double-attach
+ // The OS will enforce that only 1 debugger is attached.
+ // Common failure paths here would be: access denied, double-attach
{
hr = m_pNativePipeline->DebugActiveProcess(m_actionData.attachData.machineInfo,
dwProcessId);
@@ -14091,7 +14100,7 @@ void CordbWin32EventThread::AttachProcess()
fNativeAttachSucceeded = true;
}
-
+
hr = m_pShim->InitializeDataTarget(m_actionData.attachData.processId);
if (FAILED(hr))
{
@@ -14100,17 +14109,17 @@ void CordbWin32EventThread::AttachProcess()
// To emulate V2 semantics, we pass 0 for the clrInstanceID into
// OpenVirtualProcess. This will then connect to the first CLR
- // loaded.
+ // loaded.
{
const ULONG64 cFirstClrLoaded = 0;
- hr = CordbProcess::OpenVirtualProcess(cFirstClrLoaded, m_pShim->GetDataTarget(), NULL, m_cordb, dwProcessId, m_pShim, &pProcess);
+ hr = CordbProcess::OpenVirtualProcess(cFirstClrLoaded, m_pShim->GetDataTarget(), NULL, m_cordb, dwProcessId, m_pShim, &pProcess);
if (FAILED(hr))
{
goto LExit;
}
}
- // Remember the process in the global list of processes.
+ // Remember the process in the global list of processes.
// The caller back in code:Cordb::DebugActiveProcess will then get this by fetching it from the list.
EX_TRY
@@ -14129,7 +14138,7 @@ void CordbWin32EventThread::AttachProcess()
PUBLIC_CALLBACK_IN_THIS_SCOPE0_NO_LOCK(pProcess);
m_pShim->BeginQueueFakeAttachEvents();
}
- }
+ }
EX_CATCH_HRESULT(hr);
if (FAILED(hr))
{
@@ -14146,7 +14155,7 @@ void CordbWin32EventThread::AttachProcess()
LExit:
if (FAILED(hr))
- {
+ {
// If we succeed to do a native-attach, but then failed elsewhere, try to native-detach.
if (fNativeAttachSucceeded)
{
@@ -14389,7 +14398,7 @@ doRealContinue:
// This is either the Frozen -> Running transition or a
// Synced -> Running transition
_ASSERTE(pProcess->m_outOfBandEventQueue == NULL);
-
+
pProcess->m_doRealContinueAfterOOBBlock = false;
@@ -14414,7 +14423,7 @@ doRealContinue:
if(pProcess->m_state & CordbProcess::PS_WIN32_STOPPED)
{
DoDbgContinue(pProcess, pProcess->m_lastDispatchedIBEvent);
-
+
// This if should not be necessary, I am just being extra careful because this
// fix is going in late - see issue 818301
_ASSERTE(pProcess->m_lastDispatchedIBEvent != NULL);
@@ -14434,7 +14443,7 @@ doRealContinue:
{
// free all the hijacked threads that hit native debug events
pProcess->ResumeHijackedThreads();
-
+
// after continuing the here the process should be running completely
// free... no hijacks, no suspended threads, and of course not frozen
if(pProcess->m_state & CordbProcess::PS_WIN32_STOPPED)
@@ -14497,7 +14506,7 @@ void ExitProcessWorkItem::Do()
// There is a race condition here where the debuggee process is killed while we are processing a process
// detach. We queue the process exit event for the Win32 event thread before queueing the process detach
- // event. By the time this function is executed, we may have neutered the CordbProcess already as a
+ // event. By the time this function is executed, we may have neutered the CordbProcess already as a
// result of code:CordbProcess::Detach. Detect that case here under the SG lock.
{
RSLockHolder ch(GetProcess()->GetStopGoLock());
@@ -14522,7 +14531,7 @@ void ExitProcessWorkItem::Do()
// This CordbProcess object now has no reservations against a client calling ICorDebug::Terminate.
// That call may race against the CordbProcess::Neuter below, but since we already neutered the children,
// that neuter call will not do anything interesting that will conflict with Terminate.
-
+
LOG((LF_CORDB, LL_INFO1000,"W32ET::EP: returned from ExitProcess callback\n"));
{
@@ -14760,10 +14769,10 @@ HRESULT CordbWin32EventThread::Stop()
// Allocate a buffer of cbBuffer bytes in the target.
-//
+//
// Arguments:
// cbBuffer - count of bytes for the buffer.
-//
+//
// Returns:
// a TargetBuffer describing the new memory region in the target.
// Throws on error.
@@ -14789,7 +14798,7 @@ TargetBuffer CordbProcess::GetRemoteBuffer(ULONG cbBuffer)
IfFailThrow(event.GetBufferResult.hr);
// The request succeeded. Return the newly allocated range.
- return TargetBuffer(event.GetBufferResult.pBuffer, cbBuffer);
+ return TargetBuffer(event.GetBufferResult.pBuffer, cbBuffer);
}
/*
@@ -14841,7 +14850,7 @@ HRESULT CordbProcess::SetDesiredNGENCompilerFlags(DWORD dwFlags)
hr = pProcess->GetDAC()->SetNGENCompilerFlags(dwFlags);
if (!SUCCEEDED(hr) && GetShim() != NULL)
{
- // Emulate V2 error semantics.
+ // Emulate V2 error semantics.
hr = GetShim()->FilterSetNgenHresult(hr);
}
}
@@ -14895,7 +14904,7 @@ HRESULT CordbProcess::GetReferenceValueFromGCHandle(
{
ThrowHR(CORDBG_E_BAD_REFERENCE_VALUE);
}
-
+
IDacDbiInterface* pDAC = GetProcess()->GetDAC();
VMPTR_OBJECTHANDLE vmObjHandle = pDAC->GetVmObjectHandle(gcHandle);
if(!pDAC->IsVmObjectHandleValid(vmObjHandle))
@@ -15036,25 +15045,25 @@ HRESULT CordbProcess::IsReadyForDetach()
if (hKernel32 == NULL)
return HRESULT_FROM_GetLastError();
typedef BOOL (*DebugActiveProcessStopSig) (DWORD);
- DebugActiveProcessStopSig pDebugActiveProcessStop =
+ DebugActiveProcessStopSig pDebugActiveProcessStop =
reinterpret_cast<DebugActiveProcessStopSig>(GetProcAddress(hKernel32, "DebugActiveProcessStop"));
if (pDebugActiveProcessStop == NULL)
return COR_E_PLATFORMNOTSUPPORTED;
#endif
- }
+ }
return S_OK;
}
/*
- * Look for any thread which was last seen in the specified AppDomain.
+ * Look for any thread which was last seen in the specified AppDomain.
* The CordbAppDomain object is about to be neutered due to an AD Unload
* So the thread must no longer be considered to be in that domain.
- * Note that this is a workaround due to the existance of the (possibly incorrect)
+ * Note that this is a workaround due to the existance of the (possibly incorrect)
* cached AppDomain value. Ideally we would remove the cached value entirely
* and there would be no need for this.
- *
+ *
* @dbgtodo: , appdomain: We should remove CordbThread::m_pAppDomain in the V3 architecture.
* If we need the thread's current domain, we should get it accurately with DAC.
*/
@@ -15062,13 +15071,13 @@ void CordbProcess::UpdateThreadsForAdUnload(CordbAppDomain * pAppDomain)
{
INTERNAL_API_ENTRY(this);
- // If we're doing an AD unload then we should have already seen the ATTACH
+ // If we're doing an AD unload then we should have already seen the ATTACH
// notification for the default domain.
//_ASSERTE( m_pDefaultAppDomain != NULL );
// @dbgtodo appdomain: fix Default domain invariants with DAC-izing Appdomain work.
-
+
RSLockHolder lockHolder(GetProcessLock());
-
+
CordbThread* t;
HASHFIND find;
@@ -15079,7 +15088,7 @@ void CordbProcess::UpdateThreadsForAdUnload(CordbAppDomain * pAppDomain)
{
if( t->GetAppDomain() == pAppDomain )
{
- // This thread cannot actually be in this AppDomain anymore (since it's being
+ // This thread cannot actually be in this AppDomain anymore (since it's being
// unloaded). Reset it to point to the default AppDomain
t->m_pAppDomain = m_pDefaultAppDomain;
}
@@ -15087,7 +15096,7 @@ void CordbProcess::UpdateThreadsForAdUnload(CordbAppDomain * pAppDomain)
}
// CordbProcess::LookupClass
-// Looks up a previously constructed CordbClass instance without creating. May return NULL if the
+// Looks up a previously constructed CordbClass instance without creating. May return NULL if the
// CordbClass instance doesn't exist.
// Argument: (in) vmDomainFile - pointer to the domainfile for the module
// (in) mdTypeDef - metadata token for the class
@@ -15108,39 +15117,39 @@ CordbClass * CordbProcess::LookupClass(ICorDebugAppDomain * pAppDomain, VMPTR_Do
} // CordbProcess::LookupClass
//---------------------------------------------------------------------------------------
-// Look for a specific module in the process.
+// Look for a specific module in the process.
//
// Arguments:
// vmDomainFile - non-null module to lookup
-//
+//
// Returns:
// a CordbModule object for the given cookie. Object may be from the cache, or created
-// lazily.
+// lazily.
// Never returns null. Throws on error.
//
// Notes:
// A VMPTR_DomainFile has appdomain affinity, but is ultimately scoped to a process.
// So if we get a raw VMPTR_DomainFile (eg, from the stackwalker or from some other
-// lookup function), then we need to do a process wide lookup since we don't know which
+// lookup function), then we need to do a process wide lookup since we don't know which
// appdomain it's in. If you know the appdomain, you can use code:CordbAppDomain::LookupOrCreateModule.
-//
+//
CordbModule * CordbProcess::LookupOrCreateModule(VMPTR_DomainFile vmDomainFile)
{
INTERNAL_API_ENTRY(this);
-
+
RSLockHolder lockHolder(GetProcess()->GetProcessLock());
_ASSERTE(!vmDomainFile.IsNull());
DomainFileInfo data;
GetDAC()->GetDomainFileData(vmDomainFile, &data); // throws
-
+
CordbAppDomain * pAppDomain = LookupOrCreateAppDomain(data.vmAppDomain);
return pAppDomain->LookupOrCreateModule(vmDomainFile);
}
//---------------------------------------------------------------------------------------
// Determine if the process has any in-band queued events which have not been dispatched
-//
+//
// Returns:
// TRUE iff there are undispatched IB events
//
@@ -15148,7 +15157,7 @@ CordbModule * CordbProcess::LookupOrCreateModule(VMPTR_DomainFile vmDomainFile)
BOOL CordbProcess::HasUndispatchedNativeEvents()
{
INTERNAL_API_ENTRY(this);
-
+
CordbUnmanagedEvent* pEvent = m_unmanagedEventQueue;
while(pEvent != NULL && pEvent->IsDispatched())
{
@@ -15161,7 +15170,7 @@ BOOL CordbProcess::HasUndispatchedNativeEvents()
//---------------------------------------------------------------------------------------
// Determine if the process has any in-band queued events which have not been user continued
-//
+//
// Returns:
// TRUE iff there are user uncontinued IB events
//
@@ -15169,7 +15178,7 @@ BOOL CordbProcess::HasUndispatchedNativeEvents()
BOOL CordbProcess::HasUserUncontinuedNativeEvents()
{
INTERNAL_API_ENTRY(this);
-
+
CordbUnmanagedEvent* pEvent = m_unmanagedEventQueue;
while(pEvent != NULL && pEvent->IsEventUserContinued())
{
@@ -15183,7 +15192,7 @@ BOOL CordbProcess::HasUserUncontinuedNativeEvents()
//---------------------------------------------------------------------------------------
// Hijack the thread which had this event. If the thread is already hijacked this method
// has no effect.
-//
+//
// Arguments:
// pUnmanagedEvent - the debug event which requires us to hijack
//
@@ -15197,7 +15206,7 @@ HRESULT CordbProcess::HijackIBEvent(CordbUnmanagedEvent * pUnmanagedEvent)
_ASSERTE(!pUnmanagedEvent->IsEventContinuedHijacked());
// Can only hijack IB events
_ASSERTE(pUnmanagedEvent->IsIBEvent());
-
+
// If we already hijacked the event then there is nothing left to do
if(pUnmanagedEvent->m_owner->IsFirstChanceHijacked() ||
pUnmanagedEvent->m_owner->IsGenericHijacked())
@@ -15241,7 +15250,7 @@ HRESULT CordbProcess::GetAttachStateFlags(CLR_DEBUGGING_PROCESS_FLAGS *pFlags)
// Determine if this version of ICorDebug is compatibile with the ICorDebug in the specified major CLR version
bool CordbProcess::IsCompatibleWith(DWORD clrMajorVersion)
{
- // The debugger versioning policy is that debuggers generally need to opt-in to supporting major new
+ // The debugger versioning policy is that debuggers generally need to opt-in to supporting major new
// versions of the CLR. Often new versions of the CLR violate some invariant that previous debuggers assume
// (eg. hot/cold splitting in Whidbey, multiple CLRs in a process in CLR v4), and neither VS or the CLR
// teams generally want the support burden of forward compatibility.
@@ -15251,17 +15260,17 @@ bool CordbProcess::IsCompatibleWith(DWORD clrMajorVersion)
// number of the clr.dll has changed. This assert is here to remind you to do a bit of other
// work you may not have realized you needed to do so that our versioning works smoothly
// for debugging. You probably want to contact the CLR DST team if you are a
- // non-debugger person hitting this. DON'T JUST DELETE THIS ASSERT!!!
+ // non-debugger person hitting this. DON'T JUST DELETE THIS ASSERT!!!
//
// 1) You should ensure new versions of all ICorDebug users in DevDiv (VS Debugger, MDbg, etc.)
- // are using a creation path that explicitly specifies that they support this new major
+ // are using a creation path that explicitly specifies that they support this new major
// version of the CLR.
// 2) You should file an issue to track blocking earlier debuggers from targetting this
// version of the CLR (i.e. update requiredVersion to the new CLR major
// version). To enable a smooth internal transition, this often isn't done until absolutely
// necessary (sometimes as late as Beta2).
// 3) You can consider updating the CLR_ID guid used by the shim to recognize a CLR, but only
- // if it's important to completely hide newer CLRs from the shim. The expectation now
+ // if it's important to completely hide newer CLRs from the shim. The expectation now
// is that we won't need to do this (i.e. we'd like VS to give a nice error message about
// needed a newer version of the debugger, rather than just acting as if a process has no CLR).
// 4) Update this assert so that it no longer fires for your new CLR version or any of
@@ -15271,8 +15280,8 @@ bool CordbProcess::IsCompatibleWith(DWORD clrMajorVersion)
_ASSERTE_MSG(clrMajorVersion <= 4,
"Found major CLR version greater than 4 in mscordbi.dll from CLRv4 - contact CLRDST");
- // This knob lets us enable forward compatibility for internal scenarios, and also simulate new
- // versions of the runtime for testing the failure user-experience in a version of the debugger
+ // This knob lets us enable forward compatibility for internal scenarios, and also simulate new
+ // versions of the runtime for testing the failure user-experience in a version of the debugger
// before it is shipped.
// We don't want to risk customers getting this, so for RTM builds this must be CHK-only.
// To aid in internal transition, we may temporarily enable this in RET builds, but when
@@ -15308,7 +15317,7 @@ bool CordbProcess::IsThreadSuspendedOrHijacked(ICorDebugThread * pICorDebugThrea
// its entire duration. As a result, this needs to be considered a reentrant API. See
// comments above code:PrivateShimCallbackHolder for more info.
PUBLIC_REENTRANT_API_ENTRY_FOR_SHIM(this);
-
+
CordbThread * pCordbThread = static_cast<CordbThread *> (pICorDebugThread);
return GetDAC()->IsThreadSuspendedOrHijacked(pCordbThread->m_vmThreadToken);
}
diff --git a/src/debug/di/rsmain.cpp b/src/debug/di/rsmain.cpp
index 39ac60d0c2..d9f25e6f83 100644
--- a/src/debug/di/rsmain.cpp
+++ b/src/debug/di/rsmain.cpp
@@ -3,7 +3,7 @@
// See the LICENSE file in the project root for more information.
//*****************************************************************************
// File: RsMain.cpp
-//
+//
// Random RS utility stuff, plus root ICorCordbug implementation
//
@@ -102,7 +102,7 @@ void DbgRSThread::NotifyTakeLock(RSLock * pLock)
{
return;
}
-
+
int iLevel = pLock->GetLevel();
// Is it safe to take this lock?
@@ -132,7 +132,7 @@ void DbgRSThread::NotifyReleaseLock(RSLock * pLock)
{
return;
}
-
+
int iLevel = pLock->GetLevel();
m_cLocks[iLevel]--;
_ASSERTE(m_cLocks[iLevel] == 0);
@@ -207,9 +207,9 @@ LONG Cordb::s_DbgMemOutstandingObjectMax = 0;
// Default implementation for neutering left-side resources.
void CordbBase::NeuterLeftSideResources()
-{
- LIMITED_METHOD_CONTRACT;
-
+{
+ LIMITED_METHOD_CONTRACT;
+
RSLockHolder lockHolder(GetProcess()->GetProcessLock());
Neuter();
}
@@ -221,14 +221,14 @@ void CordbBase::Neuter()
// Neutering occurs under the process lock. Neuter can be called twice
// and so locking protects against races in double-delete.
// @dbgtodo - , some CordbBase objects (Cordb, CordbProcessEnum),
- // don't have process affinity these should eventually be hoisted to the shim,
+ // don't have process affinity these should eventually be hoisted to the shim,
// and then we can enforce.
CordbProcess * pProcess = GetProcess();
if (pProcess != NULL)
{
_ASSERTE(pProcess->ThreadHoldsProcessLock());
}
- CordbCommonBase::Neuter();
+ CordbCommonBase::Neuter();
}
//-----------------------------------------------------------------------------
@@ -247,7 +247,7 @@ NeuterList::~NeuterList()
CONSISTENCY_CHECK_MSGF(m_pHead == NULL, ("NeuterList not empty on shutdown. this=0x%p", this));
}
-// Wrapper around code:NeuterList::UnsafeAdd
+// Wrapper around code:NeuterList::UnsafeAdd
void NeuterList::Add(CordbProcess * pProcess, CordbBase * pObject)
{
CONTRACTL
@@ -268,7 +268,7 @@ void NeuterList::Add(CordbProcess * pProcess, CordbBase * pObject)
//
// Returns:
// Throws on error.
-//
+//
// Notes:
// This will add it to the list and maintain an internal reference to it.
// This will take the process lock.
@@ -276,13 +276,13 @@ void NeuterList::Add(CordbProcess * pProcess, CordbBase * pObject)
void NeuterList::UnsafeAdd(CordbProcess * pProcess, CordbBase * pObject)
{
_ASSERTE(pObject != NULL);
-
- // Lock if needed.
+
+ // Lock if needed.
RSLock * pLock = (pProcess != NULL) ? pProcess->GetProcessLock() : NULL;
RSLockHolder lockHolder(pLock, FALSE);
if (pLock != NULL) lockHolder.Acquire();
-
+
Node * pNode = new Node(); // throws on error.
pNode->m_pObject.Assign(pObject);
pNode->m_pNext = m_pHead;
@@ -303,10 +303,10 @@ void NeuterList::UnsafeAdd(CordbProcess * pProcess, CordbBase * pObject)
// This will release all internal references and empty the list.
void NeuterList::NeuterAndClear(CordbProcess * pProcess)
{
- RSLock * pLock = (pProcess != NULL) ? pProcess->GetProcessLock() : NULL;
+ RSLock * pLock = (pProcess != NULL) ? pProcess->GetProcessLock() : NULL;
(void)pLock; //prevent "unused variable" error from GCC
_ASSERTE((pLock == NULL) || pLock->HasLock());
-
+
while (m_pHead != NULL)
{
Node * pTemp = m_pHead;
@@ -351,7 +351,7 @@ void NeuterList::SweepAllNeuterAtWillObjects(CordbProcess * pProcess)
//-----------------------------------------------------------------------------
// Neuters all objects in the list and empties the list.
-//
+//
// Notes:
// See also code:LeftSideResourceCleanupList::SweepNeuterLeftSideResources,
// which only neuters objects that have been marked as NeuterAtWill (external
@@ -360,9 +360,9 @@ void LeftSideResourceCleanupList::NeuterLeftSideResourcesAndClear(CordbProcess *
{
// Traversal protected under Process-lock.
// SG-lock must already be held to do neutering.
- // Stop-Go lock is bigger than Process-lock.
+ // Stop-Go lock is bigger than Process-lock.
// Neutering requires the Stop-Go lock (until we get rid of IPC events)
- // But we want to be able to add to the Neuter list under the Process-lock.
+ // But we want to be able to add to the Neuter list under the Process-lock.
// So we just need to protected m_pHead under process-lock.
// "Privatize" the list under the lock.
@@ -378,7 +378,7 @@ void LeftSideResourceCleanupList::NeuterLeftSideResourcesAndClear(CordbProcess *
// @dbgtodo - eventually everything can be under the process lock.
_ASSERTE(!pLock->HasLock()); // Can't hold Process lock while calling NeuterLeftSideResources
-
+
// Now we're operating on local data, so traversing doesn't need to be under the lock.
while (pCur != NULL)
{
@@ -388,17 +388,17 @@ void LeftSideResourceCleanupList::NeuterLeftSideResourcesAndClear(CordbProcess *
pTemp->m_pObject->NeuterLeftSideResources();
delete pTemp; // will implicitly release
}
-
+
}
//-----------------------------------------------------------------------------
// Only neuter objects that are marked. Removes neutered objects from the list.
-//
+//
// Arguments:
// pProcess - non-null process owning the objects in the list
-//
+//
// Notes:
-// this cleans up left-side resources held by objects in the list.
+// this cleans up left-side resources held by objects in the list.
// It may send IPC events to do this.
void LeftSideResourceCleanupList::SweepNeuterLeftSideResources(CordbProcess * pProcess)
{
@@ -413,12 +413,12 @@ void LeftSideResourceCleanupList::SweepNeuterLeftSideResources(CordbProcess * pP
// Lock while we "privatize" the head.
RSLockHolder lockHolder(pLock);
Node * pHead = m_pHead;
- m_pHead = NULL;
+ m_pHead = NULL;
lockHolder.Release();
Node ** ppLast = &pHead;
Node * pCur = pHead;
-
+
// Can't hold the process-lock while calling Neuter.
while (pCur != NULL)
{
@@ -444,7 +444,7 @@ void LeftSideResourceCleanupList::SweepNeuterLeftSideResources(CordbProcess * pP
// Now link back in. m_pHead may have changed while we were unlocked.
// The list does not need to be ordered.
-
+
lockHolder.Acquire();
*ppLast = m_pHead;
m_pHead = pHead;
@@ -465,7 +465,7 @@ void CordbCommonBase::InitializeCommon()
{
return;
}
-
+
#ifdef STRESS_LOG
{
bool fStressLog = false;
@@ -503,14 +503,14 @@ void CordbCommonBase::InitializeCommon()
// Add debug privilege. This will let us call OpenProcess() on anything, regardless of ACL.
AddDebugPrivilege();
-
+
IsInitialized = true;
}
// Adjust the permissions of this process to ensure that we have
// the debugging priviledge. If we can't make the adjustment, it
// only means that we won't be able to attach to a service under
-// NT, so we won't treat that as a critical failure.
+// NT, so we won't treat that as a critical failure.
// This also will let us call OpenProcess() on anything, regardless of DACL. This allows an
// Admin debugger to attach to a debuggee in the guest account.
// Ideally, the debugger would set this (and we wouldn't mess with privileges at all). However, we've been
@@ -526,14 +526,14 @@ void CordbCommonBase::AddDebugPrivilege()
fSucc = LookupPrivilegeValueW(NULL, SE_DEBUG_NAME, &SeDebugLuid);
DWORD err = GetLastError();
-
+
if (!fSucc)
{
STRESS_LOG1(LF_CORDB, LL_INFO1000, "Unable to adjust permissions of this process to include SE_DEBUG. Lookup failed %d\n", err);
return;
}
-
-
+
+
// Retrieve a handle of the access token
fSucc = OpenProcessToken(GetCurrentProcess(),
TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY,
@@ -555,7 +555,7 @@ void CordbCommonBase::AddDebugPrivilege()
// The return value of AdjustTokenPrivileges cannot be tested.
if (err != ERROR_SUCCESS)
{
- STRESS_LOG1(LF_CORDB, LL_INFO1000,
+ STRESS_LOG1(LF_CORDB, LL_INFO1000,
"Unable to adjust permissions of this process to include SE_DEBUG. Adjust failed %d\n", err);
}
else
@@ -565,7 +565,7 @@ void CordbCommonBase::AddDebugPrivilege()
CloseHandle(hToken);
}
#endif
-}
+}
namespace
@@ -868,7 +868,8 @@ namespace
virtual HRESULT STDMETHODCALLTYPE QueryInterface(REFIID iid, void** pInterface);
virtual ULONG STDMETHODCALLTYPE AddRef();
virtual ULONG STDMETHODCALLTYPE Release();
- COM_METHOD SomeWork(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain);
+ COM_METHOD BeforeGarbageCollection(ICorDebugController* pController);
+ COM_METHOD AfterGarbageCollection(ICorDebugController* pController);
private:
// not implemented
DefaultManagedCallback4(const DefaultManagedCallback4&);
@@ -922,12 +923,22 @@ namespace
}
HRESULT
- DefaultManagedCallback4::SomeWork(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain)
+ DefaultManagedCallback4::BeforeGarbageCollection(ICorDebugController* pController)
{
//
// Just ignore and continue the process.
//
- pAppDomain->Continue(false);
+ pController->Continue(false);
+ return S_OK;
+ }
+
+ HRESULT
+ DefaultManagedCallback4::AfterGarbageCollection(ICorDebugController* pController)
+ {
+ //
+ // Just ignore and continue the process.
+ //
+ pController->Continue(false);
return S_OK;
}
}
@@ -968,13 +979,13 @@ void Cordb::Neuter()
return;
}
-
+
RSLockHolder lockHolder(&m_processListMutex);
m_pProcessEnumList.NeuterAndClear(NULL);
-
+
HRESULT hr = S_OK;
- EX_TRY // @dbgtodo push this up.
+ EX_TRY // @dbgtodo push this up.
{
// Iterating needs to be done under the processList lock (small), while neutering
// needs to be able to take the process lock (big).
@@ -983,13 +994,13 @@ void Cordb::Neuter()
// can't hold list lock while calling CordbProcess::Neuter (which
// will take the Process-lock).
- lockHolder.Release();
+ lockHolder.Release();
list.NeuterAndClear();
// List dtor calls release on each element
- }
+ }
EX_CATCH_HRESULT(hr);
- SIMPLIFYING_ASSUMPTION_SUCCEEDED(hr);
+ SIMPLIFYING_ASSUMPTION_SUCCEEDED(hr);
CordbCommonBase::Neuter();
@@ -1044,7 +1055,7 @@ HRESULT Cordb::Terminate()
FAIL_IF_NEUTERED(this);
- // We can't terminate the debugging services from within a callback.
+ // We can't terminate the debugging services from within a callback.
// Caller is supposed to be out of all callbacks when they call this.
// This also avoids a deadlock because we'll shutdown the RCET, which would block if we're
// in the RCET.
@@ -1188,7 +1199,7 @@ HRESULT Cordb::Initialize(void)
if (!m_initialized)
{
CordbCommonBase::InitializeCommon();
-
+
// Since logging wasn't active when we called CordbBase, do it now.
LOG((LF_CORDB, LL_EVERYTHING, "Memory: CordbBase object allocated: this=%p, count=%d, RootObject\n", this, s_TotalObjectCount));
LOG((LF_CORDB, LL_INFO10, "Initializing ICorDebug...\n"));
@@ -1404,7 +1415,7 @@ HRESULT Cordb::SetTargetCLR(HMODULE hmodTargetCLR)
CoreClrCallbacks cccallbacks;
cccallbacks.m_hmodCoreCLR = hmodTargetCLR;
cccallbacks.m_pfnIEE = NULL;
- cccallbacks.m_pfnGetCORSystemDirectory = NULL;
+ cccallbacks.m_pfnGetCORSystemDirectory = NULL;
cccallbacks.m_pfnGetCLRFunction = NULL;
InitUtilcode(cccallbacks);
@@ -1501,7 +1512,7 @@ bool Cordb::IsCreateProcessSupported()
{
#if !defined(FEATURE_DBGIPC_TRANSPORT_DI)
return false;
-#else
+#else
return true;
#endif
}
@@ -1535,7 +1546,7 @@ bool Cordb::IsInteropDebuggingSupported()
// Creates a process.
//
// Arguments:
-// The following arguments are passed thru unmodified to the OS CreateProcess API and
+// The following arguments are passed thru unmodified to the OS CreateProcess API and
// are defined by that API.
// lpApplicationName
// lpCommandLine
@@ -1850,13 +1861,13 @@ HRESULT Cordb::DebugActiveProcessCommon(ICorDebugRemoteTarget * pRemoteTarget,
}
#if defined(FEATURE_DBGIPC_TRANSPORT_DI)
- // This is where we queue the managed attach event in Whidbey. In the new architecture, the Windows
- // pipeline gets a loader breakpoint when native attach is completed, and that's where we queue the
+ // This is where we queue the managed attach event in Whidbey. In the new architecture, the Windows
+ // pipeline gets a loader breakpoint when native attach is completed, and that's where we queue the
// managed attach event. See how we handle the loader breakpoint in code:ShimProcess::DefaultEventHandler.
// However, the Mac debugging transport gets no such breakpoint, and so we need to do this here.
- //
- // @dbgtodo Mac - Ideally we should hide this in our pipeline implementation, or at least move
- // this to the shim.
+ //
+ // @dbgtodo Mac - Ideally we should hide this in our pipeline implementation, or at least move
+ // this to the shim.
_ASSERTE(!fWin32Attach);
{
pProcess->Lock();
@@ -1864,7 +1875,7 @@ HRESULT Cordb::DebugActiveProcessCommon(ICorDebugRemoteTarget * pRemoteTarget,
pProcess->Unlock();
}
#endif // FEATURE_DBGIPC_TRANSPORT_DI
-
+
*ppProcess = (ICorDebugProcess*) pProcess;
}
@@ -1883,23 +1894,23 @@ void Cordb::CheckCompatibility()
clrMajor = 2;
else if (debuggerVersion <= CorDebugVersion_4_0)
clrMajor = 4;
- else
+ else
clrMajor = 5; // some unrecognized future version
if(!CordbProcess::IsCompatibleWith(clrMajor))
{
// Carefully choose our error-code to get an appropriate error-message from VS 2008
// If GetDebuggerVersion is >= 4, we could consider using the more-appropriate (but not
- // added until V4) HRESULT CORDBG_E_UNSUPPORTED_FORWARD_COMPAT that is used by
+ // added until V4) HRESULT CORDBG_E_UNSUPPORTED_FORWARD_COMPAT that is used by
// OpenVirtualProcess, but it's probably simpler to keep ICorDebug APIs returning
// consistent error codes.
ThrowHR(CORDBG_E_INCOMPATIBLE_PROTOCOL);
}
}
-HRESULT Cordb::DebugActiveProcessEx(ICorDebugRemoteTarget * pRemoteTarget,
- DWORD dwProcessId,
- BOOL fWin32Attach,
+HRESULT Cordb::DebugActiveProcessEx(ICorDebugRemoteTarget * pRemoteTarget,
+ DWORD dwProcessId,
+ BOOL fWin32Attach,
ICorDebugProcess ** ppProcess)
{
if (pRemoteTarget == NULL)
@@ -1956,12 +1967,12 @@ HRESULT Cordb::EnumerateProcesses(ICorDebugProcessEnum **ppProcesses)
RSInitHolder<CordbHashTableEnum> pEnum;
CordbHashTableEnum::BuildOrThrow(
- this,
- &m_pProcessEnumList,
+ this,
+ &m_pProcessEnumList,
GetProcessList(),
IID_ICorDebugProcessEnum,
pEnum.GetAddr());
-
+
pEnum.TransferOwnershipExternal(ppProcesses);
}
@@ -1995,7 +2006,7 @@ HRESULT Cordb::CanLaunchOrAttach(DWORD dwProcessId, BOOL fWin32DebuggingEnabled)
EX_TRY
{
EnsureCanLaunchOrAttach(fWin32DebuggingEnabled);
- }
+ }
EX_CATCH_HRESULT(hr);
return hr;
@@ -2095,12 +2106,12 @@ CordbEnumFilter::CordbEnumFilter(CordbBase * pOwnerObj, NeuterList * pOwnerList)
m_iCount (0)
{
_ASSERTE(m_pOwnerNeuterList != NULL);
-
+
HRESULT hr = S_OK;
EX_TRY
{
m_pOwnerNeuterList->Add(pOwnerObj->GetProcess(), this);
- }
+ }
EX_CATCH_HRESULT(hr);
SetUnrecoverableIfFailed(GetProcess(), hr);
@@ -2114,15 +2125,15 @@ CordbEnumFilter::CordbEnumFilter(CordbEnumFilter *src)
m_pCurrent (NULL)
{
_ASSERTE(m_pOwnerNeuterList != NULL);
-
+
HRESULT hr = S_OK;
EX_TRY
{
m_pOwnerNeuterList->Add(src->GetProcess(), this);
- }
+ }
EX_CATCH_HRESULT(hr);
SetUnrecoverableIfFailed(GetProcess(), hr);
-
+
int iCountSanityCheck = 0;
@@ -2214,10 +2225,10 @@ void CordbEnumFilter::Neuter()
HRESULT CordbEnumFilter::QueryInterface(REFIID id, void **ppInterface)
{
// if we QI with the IID of the base type, we can't just return a pointer ICorDebugEnum directly, because
- // the cast is ambiguous. This happens because CordbEnumFilter implements both ICorDebugModuleEnum and
+ // the cast is ambiguous. This happens because CordbEnumFilter implements both ICorDebugModuleEnum and
// ICorDebugThreadEnum, both of which derive in turn from ICorDebugEnum. This produces a diamond inheritance
- // graph. Thus we need a double cast. It doesn't really matter whether we pick ICorDebugThreadEnum or
- // ICorDebugModuleEnum, because it will be backed by the same object regardless.
+ // graph. Thus we need a double cast. It doesn't really matter whether we pick ICorDebugThreadEnum or
+ // ICorDebugModuleEnum, because it will be backed by the same object regardless.
if (id == IID_ICorDebugEnum)
*ppInterface = static_cast<ICorDebugEnum *>(static_cast<ICorDebugThreadEnum *>(this));
else if (id == IID_ICorDebugModuleEnum)
@@ -2557,7 +2568,7 @@ HRESULT CordbEnumFilter::Init (ICorDebugThreadEnum *pThreadEnum, CordbAppDomain
{
goto Error;
}
-
+
if (pThreadDomain == pAppDomain)
{
pElement = new (nothrow) EnumElement;
diff --git a/src/debug/di/shimcallback.cpp b/src/debug/di/shimcallback.cpp
index 35e9f38462..00501da2ae 100644
--- a/src/debug/di/shimcallback.cpp
+++ b/src/debug/di/shimcallback.cpp
@@ -3,7 +3,7 @@
// See the LICENSE file in the project root for more information.
//*****************************************************************************
// File: ShimCallback.cpp
-//
+//
//
// The V3 ICD debugging APIs have a lower abstraction level than V2.
@@ -13,7 +13,7 @@
#include "stdafx.h"
#include "safewrap.h"
-#include "check.h"
+#include "check.h"
#include <limits.h>
#include "shimpriv.h"
@@ -78,22 +78,22 @@ HRESULT ShimProxyCallback::QueryInterface(REFIID riid, void **ppInterface)
//
// Map from an old frame to a new one.
-//
+//
// Arguments:
// pThread - thread that frame is on
// pOldFrame - old frame before the continue, may have gotten neutered.
-//
+//
// Returns:
// a new, non-neutered frame that matches the old frame.
-//
+//
// Notes:
// Called by event handlers below (which are considered Outside the RS).
// No adjust of reference, Thread already has reference.
-// @dbgtodo shim-stackwalks: this is used for exception callbacks, which may change for V3.
+// @dbgtodo shim-stackwalks: this is used for exception callbacks, which may change for V3.
ICorDebugFrame * UpdateFrame(ICorDebugThread * pThread, ICorDebugFrame * pOldFrame)
{
- PUBLIC_API_ENTRY_FOR_SHIM(NULL);
-
+ PUBLIC_API_ENTRY_FOR_SHIM(NULL);
+
RSExtSmartPtr<ICorDebugFrame> pNewFrame;
EX_TRY
@@ -102,16 +102,16 @@ ICorDebugFrame * UpdateFrame(ICorDebugThread * pThread, ICorDebugFrame * pOldFra
if (pFrame != NULL)
{
FramePointer fp = pFrame->GetFramePointer();
-
+
CordbThread * pThread2 = static_cast<CordbThread *> (pThread);
pThread2->FindFrame(&pNewFrame, fp);
-
- //
+
+ //
}
}
EX_CATCH
{
- // Do not throw out of this function. Doing so means that the debugger never gets a chance to
+ // Do not throw out of this function. Doing so means that the debugger never gets a chance to
// continue the debuggee process. This will lead to a hang. Instead, try to make a best effort to
// continue with a NULL ICDFrame. VS is able to handle this gracefully.
pNewFrame.Assign(NULL);
@@ -140,7 +140,7 @@ HRESULT ShimProxyCallback::Breakpoint(ICorDebugAppDomain * pAppDomain, ICorDebug
public:
// Ctor
- BreakpointEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugBreakpoint * pBreakpoint) :
+ BreakpointEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugBreakpoint * pBreakpoint) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -173,7 +173,7 @@ HRESULT ShimProxyCallback::StepComplete(ICorDebugAppDomain * pAppDomain, ICorDeb
public:
// Ctor
- StepCompleteEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugStepper * pStepper, CorDebugStepReason reason) :
+ StepCompleteEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugStepper * pStepper, CorDebugStepReason reason) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -205,7 +205,7 @@ HRESULT ShimProxyCallback::Break(ICorDebugAppDomain * pAppDomain, ICorDebugThrea
public:
// Ctor
- BreakEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
+ BreakEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -236,7 +236,7 @@ HRESULT ShimProxyCallback::Exception(ICorDebugAppDomain * pAppDomain, ICorDebugT
public:
// Ctor
- ExceptionEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, BOOL fUnhandled) :
+ ExceptionEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, BOOL fUnhandled) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -268,7 +268,7 @@ HRESULT ShimProxyCallback::EvalComplete(ICorDebugAppDomain * pAppDomain, ICorDeb
public:
// Ctor
- EvalCompleteEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugEval * pEval) :
+ EvalCompleteEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugEval * pEval) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -300,7 +300,7 @@ HRESULT ShimProxyCallback::EvalException(ICorDebugAppDomain * pAppDomain, ICorDe
public:
// Ctor
- EvalExceptionEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugEval * pEval) :
+ EvalExceptionEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugEval * pEval) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -320,10 +320,10 @@ HRESULT ShimProxyCallback::EvalException(ICorDebugAppDomain * pAppDomain, ICorDe
// Implementation of ICorDebugManagedCallback::CreateProcess
-// This will only be called for a Real create-process event.
+// This will only be called for a Real create-process event.
HRESULT ShimProxyCallback::CreateProcess(ICorDebugProcess * pProcess)
{
- m_pShim->PreDispatchEvent(true);
+ m_pShim->PreDispatchEvent(true);
QueueCreateProcess(pProcess);
return S_OK;
}
@@ -337,7 +337,7 @@ void ShimProxyCallback::QueueCreateProcess(ICorDebugProcess * pProcess)
public:
// Ctor
- CreateProcessEvent(ICorDebugProcess * pProcess, ShimProcess * pShim) :
+ CreateProcessEvent(ICorDebugProcess * pProcess, ShimProcess * pShim) :
ManagedEvent(),
m_pShim(pShim)
{
@@ -351,9 +351,9 @@ void ShimProxyCallback::QueueCreateProcess(ICorDebugProcess * pProcess)
return args.GetCallback1()->CreateProcess(m_pProcess);
}
- // we need access to the shim in Dispatch so we can set the InCreateProcess flag to keep track of
+ // we need access to the shim in Dispatch so we can set the InCreateProcess flag to keep track of
// when we are actually in the callback. We need this information to be able to emulate
- // the hresult logic in v2.0.
+ // the hresult logic in v2.0.
ShimProcess * m_pShim;
}; // end class CreateProcessEvent
@@ -375,7 +375,7 @@ HRESULT ShimProxyCallback::ExitProcess(ICorDebugProcess * pProcess)
public:
// Ctor
- ExitProcessEvent(ICorDebugProcess * pProcess) :
+ ExitProcessEvent(ICorDebugProcess * pProcess) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -405,7 +405,7 @@ HRESULT ShimProxyCallback::CreateThread(ICorDebugAppDomain * pAppDomain, ICorDeb
public:
// Ctor
- CreateThreadEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
+ CreateThreadEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -438,7 +438,7 @@ HRESULT ShimProxyCallback::ExitThread(ICorDebugAppDomain * pAppDomain, ICorDebug
public:
// Ctor
- ExitThreadEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
+ ExitThreadEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -461,13 +461,13 @@ HRESULT ShimProxyCallback::ExitThread(ICorDebugAppDomain * pAppDomain, ICorDebug
//
// Arguments:
// pAppDomain - appdomain for the LoadModule debug event
-// pModule - module being loaded.
+// pModule - module being loaded.
//
// Notes:
// See code:ShimProcess::QueueFakeAttachEvents
// This is the fake version of code:ShimProxyCallback::LoadModule.
-// It sends an IPC event to go in process to collect information that we can't yet get via
-// DAC from out-of-proc.
+// It sends an IPC event to go in process to collect information that we can't yet get via
+// DAC from out-of-proc.
void ShimProxyCallback::FakeLoadModule(ICorDebugAppDomain *pAppDomain, ICorDebugModule *pModule)
{
class FakeLoadModuleEvent : public ManagedEvent
@@ -478,7 +478,7 @@ void ShimProxyCallback::FakeLoadModule(ICorDebugAppDomain *pAppDomain, ICorDebug
public:
// Ctor
- FakeLoadModuleEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule, ShimProcess * pShim) :
+ FakeLoadModuleEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule, ShimProcess * pShim) :
ManagedEvent(),
m_pShim(pShim)
{
@@ -487,15 +487,15 @@ void ShimProxyCallback::FakeLoadModule(ICorDebugAppDomain *pAppDomain, ICorDebug
}
HRESULT Dispatch(DispatchArgs args)
- {
+ {
// signal that we are in the callback--this will be cleared in code:CordbProcess::ContinueInternal
- m_pShim->SetInLoadModule(true);
+ m_pShim->SetInLoadModule(true);
return args.GetCallback1()->LoadModule(m_pAppDomain, m_pModule);
}
- // we need access to the shim in Dispatch so we can set the InLoadModule flag to keep track
+ // we need access to the shim in Dispatch so we can set the InLoadModule flag to keep track
// when we are actually in the callback. We need this information to be able to emulate
- // the hresult logic in v2.0.
+ // the hresult logic in v2.0.
ShimProcess * m_pShim;
}; // end class LoadModuleEvent
@@ -515,7 +515,7 @@ HRESULT ShimProxyCallback::LoadModule(ICorDebugAppDomain * pAppDomain, ICorDebug
public:
// Ctor
- LoadModuleEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule) :
+ LoadModuleEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -523,7 +523,7 @@ HRESULT ShimProxyCallback::LoadModule(ICorDebugAppDomain * pAppDomain, ICorDebug
}
HRESULT Dispatch(DispatchArgs args)
- {
+ {
return args.GetCallback1()->LoadModule(m_pAppDomain, m_pModule);
}
}; // end class LoadModuleEvent
@@ -548,7 +548,7 @@ HRESULT ShimProxyCallback::UnloadModule(ICorDebugAppDomain * pAppDomain, ICorDeb
public:
// Ctor
- UnloadModuleEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule) :
+ UnloadModuleEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -579,7 +579,7 @@ HRESULT ShimProxyCallback::LoadClass(ICorDebugAppDomain * pAppDomain, ICorDebugC
public:
// Ctor
- LoadClassEvent(ICorDebugAppDomain * pAppDomain, ICorDebugClass * pClass) :
+ LoadClassEvent(ICorDebugAppDomain * pAppDomain, ICorDebugClass * pClass) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -609,7 +609,7 @@ HRESULT ShimProxyCallback::UnloadClass(ICorDebugAppDomain * pAppDomain, ICorDebu
public:
// Ctor
- UnloadClassEvent(ICorDebugAppDomain * pAppDomain, ICorDebugClass * pClass) :
+ UnloadClassEvent(ICorDebugAppDomain * pAppDomain, ICorDebugClass * pClass) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -640,7 +640,7 @@ HRESULT ShimProxyCallback::DebuggerError(ICorDebugProcess * pProcess, HRESULT er
public:
// Ctor
- DebuggerErrorEvent(ICorDebugProcess * pProcess, HRESULT errorHR, DWORD errorCode) :
+ DebuggerErrorEvent(ICorDebugProcess * pProcess, HRESULT errorHR, DWORD errorCode) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -674,7 +674,7 @@ HRESULT ShimProxyCallback::LogMessage(ICorDebugAppDomain * pAppDomain, ICorDebug
public:
// Ctor
- LogMessageEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, LONG lLevel, LPCWSTR pLogSwitchName, LPCWSTR pMessage) :
+ LogMessageEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, LONG lLevel, LPCWSTR pLogSwitchName, LPCWSTR pMessage) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -711,7 +711,7 @@ HRESULT ShimProxyCallback::LogSwitch(ICorDebugAppDomain * pAppDomain, ICorDebugT
public:
// Ctor
- LogSwitchEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, LONG lLevel, ULONG ulReason, LPCWSTR pLogSwitchName, LPCWSTR pParentName) :
+ LogSwitchEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, LONG lLevel, ULONG ulReason, LPCWSTR pLogSwitchName, LPCWSTR pParentName) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -745,7 +745,7 @@ HRESULT ShimProxyCallback::CreateAppDomain(ICorDebugProcess * pProcess, ICorDebu
public:
// Ctor
- CreateAppDomainEvent(ICorDebugProcess * pProcess, ICorDebugAppDomain * pAppDomain) :
+ CreateAppDomainEvent(ICorDebugProcess * pProcess, ICorDebugAppDomain * pAppDomain) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -778,7 +778,7 @@ HRESULT ShimProxyCallback::ExitAppDomain(ICorDebugProcess * pProcess, ICorDebugA
public:
// Ctor
- ExitAppDomainEvent(ICorDebugProcess * pProcess, ICorDebugAppDomain * pAppDomain) :
+ ExitAppDomainEvent(ICorDebugProcess * pProcess, ICorDebugAppDomain * pAppDomain) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -809,7 +809,7 @@ HRESULT ShimProxyCallback::LoadAssembly(ICorDebugAppDomain * pAppDomain, ICorDeb
public:
// Ctor
- LoadAssemblyEvent(ICorDebugAppDomain * pAppDomain, ICorDebugAssembly * pAssembly) :
+ LoadAssemblyEvent(ICorDebugAppDomain * pAppDomain, ICorDebugAssembly * pAssembly) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -842,7 +842,7 @@ HRESULT ShimProxyCallback::UnloadAssembly(ICorDebugAppDomain * pAppDomain, ICorD
public:
// Ctor
- UnloadAssemblyEvent(ICorDebugAppDomain * pAppDomain, ICorDebugAssembly * pAssembly) :
+ UnloadAssemblyEvent(ICorDebugAppDomain * pAppDomain, ICorDebugAssembly * pAssembly) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -872,7 +872,7 @@ HRESULT ShimProxyCallback::ControlCTrap(ICorDebugProcess * pProcess)
public:
// Ctor
- ControlCTrapEvent(ICorDebugProcess * pProcess) :
+ ControlCTrapEvent(ICorDebugProcess * pProcess) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -901,7 +901,7 @@ HRESULT ShimProxyCallback::NameChange(ICorDebugAppDomain * pAppDomain, ICorDebug
public:
// Ctor
- NameChangeEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
+ NameChangeEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -932,7 +932,7 @@ HRESULT ShimProxyCallback::UpdateModuleSymbols(ICorDebugAppDomain * pAppDomain,
public:
// Ctor
- UpdateModuleSymbolsEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule, IStream * pSymbolStream) :
+ UpdateModuleSymbolsEvent(ICorDebugAppDomain * pAppDomain, ICorDebugModule * pModule, IStream * pSymbolStream) :
ManagedEvent()
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -965,7 +965,7 @@ HRESULT ShimProxyCallback::EditAndContinueRemap(ICorDebugAppDomain * pAppDomain,
public:
// Ctor
- EditAndContinueRemapEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFunction * pFunction, BOOL fAccurate) :
+ EditAndContinueRemapEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFunction * pFunction, BOOL fAccurate) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -999,7 +999,7 @@ HRESULT ShimProxyCallback::BreakpointSetError(ICorDebugAppDomain * pAppDomain, I
public:
// Ctor
- BreakpointSetErrorEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugBreakpoint * pBreakpoint, DWORD dwError) :
+ BreakpointSetErrorEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugBreakpoint * pBreakpoint, DWORD dwError) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -1034,7 +1034,7 @@ HRESULT ShimProxyCallback::FunctionRemapOpportunity(ICorDebugAppDomain * pAppDom
public:
// Ctor
- FunctionRemapOpportunityEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFunction * pOldFunction, ICorDebugFunction * pNewFunction, ULONG32 oldILOffset) :
+ FunctionRemapOpportunityEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFunction * pOldFunction, ICorDebugFunction * pNewFunction, ULONG32 oldILOffset) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -1068,7 +1068,7 @@ HRESULT ShimProxyCallback::CreateConnection(ICorDebugProcess * pProcess, CONNID
public:
// Ctor
- CreateConnectionEvent(ICorDebugProcess * pProcess, CONNID dwConnectionId, LPCWSTR pConnectionName) :
+ CreateConnectionEvent(ICorDebugProcess * pProcess, CONNID dwConnectionId, LPCWSTR pConnectionName) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -1099,7 +1099,7 @@ HRESULT ShimProxyCallback::ChangeConnection(ICorDebugProcess * pProcess, CONNID
public:
// Ctor
- ChangeConnectionEvent(ICorDebugProcess * pProcess, CONNID dwConnectionId) :
+ ChangeConnectionEvent(ICorDebugProcess * pProcess, CONNID dwConnectionId) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -1129,7 +1129,7 @@ HRESULT ShimProxyCallback::DestroyConnection(ICorDebugProcess * pProcess, CONNID
public:
// Ctor
- DestroyConnectionEvent(ICorDebugProcess * pProcess, CONNID dwConnectionId) :
+ DestroyConnectionEvent(ICorDebugProcess * pProcess, CONNID dwConnectionId) :
ManagedEvent()
{
this->m_pProcess.Assign(pProcess);
@@ -1164,7 +1164,7 @@ HRESULT ShimProxyCallback::Exception(ICorDebugAppDomain * pAppDomain, ICorDebugT
public:
// Ctor
- ExceptionEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFrame * pFrame, ULONG32 nOffset, CorDebugExceptionCallbackType dwEventType, DWORD dwFlags) :
+ ExceptionEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFrame * pFrame, ULONG32 nOffset, CorDebugExceptionCallbackType dwEventType, DWORD dwFlags) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -1200,7 +1200,7 @@ HRESULT ShimProxyCallback::ExceptionUnwind(ICorDebugAppDomain * pAppDomain, ICor
public:
// Ctor
- ExceptionUnwindEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, CorDebugExceptionUnwindCallbackType dwEventType, DWORD dwFlags) :
+ ExceptionUnwindEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, CorDebugExceptionUnwindCallbackType dwEventType, DWORD dwFlags) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -1233,7 +1233,7 @@ HRESULT ShimProxyCallback::FunctionRemapComplete(ICorDebugAppDomain * pAppDomain
public:
// Ctor
- FunctionRemapCompleteEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFunction * pFunction) :
+ FunctionRemapCompleteEvent(ICorDebugAppDomain * pAppDomain, ICorDebugThread * pThread, ICorDebugFunction * pFunction) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -1265,7 +1265,7 @@ HRESULT ShimProxyCallback::MDANotification(ICorDebugController * pController, IC
public:
// Ctor
- MDANotificationEvent(ICorDebugController * pController, ICorDebugThread * pThread, ICorDebugMDA * pMDA) :
+ MDANotificationEvent(ICorDebugController * pController, ICorDebugThread * pThread, ICorDebugMDA * pMDA) :
ManagedEvent(pThread)
{
this->m_pController.Assign(pController);
@@ -1300,7 +1300,7 @@ HRESULT ShimProxyCallback::CustomNotification(ICorDebugThread * pThread, ICorDeb
public:
// Ctor
- CustomNotificationEvent(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain) :
+ CustomNotificationEvent(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain) :
ManagedEvent(pThread)
{
this->m_pAppDomain.Assign(pAppDomain);
@@ -1317,39 +1317,68 @@ HRESULT ShimProxyCallback::CustomNotification(ICorDebugThread * pThread, ICorDeb
return S_OK;
}
-// Implementation of ICorDebugManagedCallback4::SomeWork
+// Implementation of ICorDebugManagedCallback4::BeforeGarbageCollection
// Arguments:
// input:
-// pThread - thread on which the notification occurred
-// pAppDomain - appDomain in which the notification occurred
+// pController - controller in which the notification occurred
// Return value: S_OK
-HRESULT ShimProxyCallback::SomeWork(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain)
+HRESULT ShimProxyCallback::BeforeGarbageCollection(ICorDebugController* pController)
{
m_pShim->PreDispatchEvent();
- class SomeWorkEvent : public ManagedEvent
+ class BeforeGarbageCollectionEvent : public ManagedEvent
{
// callbacks parameters. These are strong references
- RSExtSmartPtr<ICorDebugAppDomain > m_pAppDomain;
- RSExtSmartPtr<ICorDebugThread > m_pThread;
+ RSExtSmartPtr<ICorDebugController > m_pController;
public:
// Ctor
- SomeWorkEvent(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain) :
- ManagedEvent(pThread)
+ BeforeGarbageCollectionEvent(ICorDebugController* pController) :
+ ManagedEvent()
{
- this->m_pAppDomain.Assign(pAppDomain);
- this->m_pThread.Assign(pThread);
+ this->m_pController.Assign(pController);
+ }
+
+ HRESULT Dispatch(DispatchArgs args)
+ {
+ return args.GetCallback4()->BeforeGarbageCollection(m_pController);
+ }
+ }; // end class BeforeGarbageCollectionEvent
+
+ m_pShim->GetManagedEventQueue()->QueueEvent(new BeforeGarbageCollectionEvent(pController));
+ return S_OK;
+}
+
+// Implementation of ICorDebugManagedCallback4::AfterGarbageCollection
+// Arguments:
+// input:
+// pController - controller in which the notification occurred
+// Return value: S_OK
+HRESULT ShimProxyCallback::AfterGarbageCollection(ICorDebugController* pController)
+{
+ m_pShim->PreDispatchEvent();
+ class AfterGarbageCollectionEvent : public ManagedEvent
+ {
+ // callbacks parameters. These are strong references
+ RSExtSmartPtr<ICorDebugController > m_pController;
+
+ public:
+ // Ctor
+ AfterGarbageCollectionEvent(ICorDebugController* pController) :
+ ManagedEvent()
+ {
+ this->m_pController.Assign(pController);
}
HRESULT Dispatch(DispatchArgs args)
{
- return args.GetCallback4()->SomeWork(m_pThread, m_pAppDomain);
+ return args.GetCallback4()->AfterGarbageCollection(m_pController);
}
- }; // end class SomeWorkEvent
+ }; // end class AfterGarbageCollectionEvent
- m_pShim->GetManagedEventQueue()->QueueEvent(new SomeWorkEvent(pThread, pAppDomain));
+ m_pShim->GetManagedEventQueue()->QueueEvent(new AfterGarbageCollectionEvent(pController));
return S_OK;
}
+
diff --git a/src/debug/di/shimpriv.h b/src/debug/di/shimpriv.h
index acd3ef5e09..0f2d8031bb 100644
--- a/src/debug/di/shimpriv.h
+++ b/src/debug/di/shimpriv.h
@@ -3,9 +3,9 @@
// See the LICENSE file in the project root for more information.
//*****************************************************************************
// shimprivate.h
-//
+//
-//
+//
// private header for RS shim which bridges from V2 to V3.
//*****************************************************************************
@@ -58,14 +58,14 @@ typedef SHash<DuplicateCreationEventsHashTableTraits> DuplicateCreationEventsHas
//
// Callback that shim provides, which then queues up the events.
//
-class ShimProxyCallback :
+class ShimProxyCallback :
public ICorDebugManagedCallback,
- public ICorDebugManagedCallback2,
+ public ICorDebugManagedCallback2,
public ICorDebugManagedCallback3,
public ICorDebugManagedCallback4
{
ShimProcess * m_pShim; // weak reference
- LONG m_cRef;
+ LONG m_cRef;
public:
ShimProxyCallback(ShimProcess * pShim);
@@ -83,7 +83,7 @@ public:
COM_METHOD Breakpoint( ICorDebugAppDomain *pAppDomain,
ICorDebugThread *pThread,
ICorDebugBreakpoint *pBreakpoint);
-
+
COM_METHOD StepComplete( ICorDebugAppDomain *pAppDomain,
ICorDebugThread *pThread,
ICorDebugStepper *pStepper,
@@ -143,7 +143,7 @@ public:
ICorDebugAppDomain *pAppDomain);
COM_METHOD ExitAppDomain(ICorDebugProcess *pProcess,
- ICorDebugAppDomain *pAppDomain);
+ ICorDebugAppDomain *pAppDomain);
COM_METHOD LoadAssembly(ICorDebugAppDomain *pAppDomain,
ICorDebugAssembly *pAssembly);
@@ -215,8 +215,11 @@ public:
/// Implementation of ICorDebugManagedCallback4
///
- // Implementation of ICorDebugManagedCallback4::SomeWork
- COM_METHOD SomeWork(ICorDebugThread * pThread, ICorDebugAppDomain * pAppDomain);
+ // Implementation of ICorDebugManagedCallback4::BeforeGarbageCollection
+ COM_METHOD ShimProxyCallback::BeforeGarbageCollection(ICorDebugController* pController);
+
+ // Implementation of ICorDebugManagedCallback4::AfterGarbageCollection
+ COM_METHOD ShimProxyCallback::AfterGarbageCollection(ICorDebugController* pController);
};
@@ -268,7 +271,7 @@ protected:
// Ctor for events without thread affinity.
ManagedEvent();
-
+
friend class ManagedEventQueue;
ManagedEvent * m_pNext;
@@ -285,9 +288,9 @@ class ManagedEventQueue
public:
ManagedEventQueue();
-
+
void Init(RSLock * pLock);
-
+
// Remove event from the top. Caller then takes ownership of Event and will call Delete on it.
// Caller checks IsEmpty() first.
ManagedEvent * Dequeue();
@@ -311,7 +314,7 @@ public:
void RestoreSuspendedQueue();
protected:
- // The lock to be used for synchronizing all access to the queue
+ // The lock to be used for synchronizing all access to the queue
RSLock * m_pLock;
// If empty, First + Last are both NULL.
@@ -332,10 +335,10 @@ protected:
class ShimProcess
{
// Delete via Ref count semantics.
- ~ShimProcess();
+ ~ShimProcess();
public:
// Initialize ref count is 0.
- ShimProcess();
+ ShimProcess();
// Lifetime semantics handled by reference counting.
void AddRef();
@@ -346,7 +349,7 @@ public:
// Initialization phases.
// 1. allocate new ShimProcess(). This lets us spin up a Win32 EventThread, which can then
- // be used to
+ // be used to
// 2. Call ShimProcess::CreateProcess/DebugActiveProcess. This will call CreateAndStartWin32ET to
// craete the w32et.
// 3. Create OS-debugging pipeline. This establishes the physical OS process and gets us a pid/handle
@@ -388,7 +391,7 @@ public:
//
// Functions used by CordbProcess
- //
+ //
// Determine if the calling thread is the win32 event thread.
bool IsWin32EventThread();
@@ -400,7 +403,7 @@ public:
// Accessor wrapper to mark whether we're interop-debugging.
void SetIsInteropDebugging(bool fIsInteropDebugging);
- // Handle a debug event.
+ // Handle a debug event.
HRESULT HandleWin32DebugEvent(const DEBUG_EVENT * pEvent);
ManagedEventQueue * GetManagedEventQueue();
@@ -432,18 +435,18 @@ public:
// Expose m_attached to CordbProcess.
bool GetAttached();
- // We need to know whether we are in the CreateProcess callback to be able to
- // return the v2.0 hresults from code:CordbProcess::SetDesiredNGENCompilerFlags
+ // We need to know whether we are in the CreateProcess callback to be able to
+ // return the v2.0 hresults from code:CordbProcess::SetDesiredNGENCompilerFlags
// when we are using the shim.
- //
+ //
// Expose m_fInCreateProcess
bool GetInCreateProcess();
void SetInCreateProcess(bool value);
- // We need to know whether we are in the FakeLoadModule callback to be able to
+ // We need to know whether we are in the FakeLoadModule callback to be able to
// return the v2.0 hresults from code:CordbModule::SetJITCompilerFlags when
// we are using the shim.
- //
+ //
// Expose m_fInLoadModule
bool GetInLoadModule();
void SetInLoadModule(bool value);
@@ -469,7 +472,7 @@ public:
// Clear all ShimStackWalks and flush all the caches.
void ClearAllShimStackWalk();
- // Get the corresponding ICDProcess object.
+ // Get the corresponding ICDProcess object.
ICorDebugProcess * GetProcess();
// Get the data target to access the debuggee.
@@ -487,7 +490,7 @@ public:
void PreDispatchEvent(bool fRealCreateProcessEvent = false);
// Look for a CLR in the process and if found, return it's instance ID
- HRESULT FindLoadedCLR(CORDB_ADDRESS * pClrInstanceId);
+ HRESULT FindLoadedCLR(CORDB_ADDRESS * pClrInstanceId);
// Retrieve the IP address and the port number of the debugger proxy.
MachineInfo GetMachineInfo();
@@ -495,7 +498,7 @@ public:
// Add an entry in the duplicate creation event hash table for the specified key.
void AddDuplicateCreationEvent(void * pKey);
- // Check if a duplicate creation event entry exists for the specified key. If so, remove it.
+ // Check if a duplicate creation event entry exists for the specified key. If so, remove it.
bool RemoveDuplicateCreationEventIfPresent(void * pKey);
void SetMarkAttachPendingEvent();
@@ -515,13 +518,13 @@ protected:
HRESULT CreateAndStartWin32ET(Cordb * pCordb);
//
- // Synchronization events to ensure that AttachPending bit is marked before DebugActiveProcess
+ // Synchronization events to ensure that AttachPending bit is marked before DebugActiveProcess
// returns or debugger is detaching
- //
+ //
HANDLE m_markAttachPendingEvent;
HANDLE m_terminatingEvent;
- // Finds the base address of [core]clr.dll
+ // Finds the base address of [core]clr.dll
CORDB_ADDRESS GetCLRInstanceBaseAddress();
//
@@ -529,12 +532,12 @@ protected:
//
// Shim maintains event queue to emulate V2 semantics.
- // In V2, IcorDebug internally queued debug events and dispatched them
- // once the debuggee was synchronized. In V3, ICorDebug dispatches events immediately.
+ // In V2, IcorDebug internally queued debug events and dispatched them
+ // once the debuggee was synchronized. In V3, ICorDebug dispatches events immediately.
// The event queue is moved into the shim to build V2 semantics of V3 behavior.
ManagedEventQueue m_eventQueue;
-
- // Lock to protect Shim data structures. This is currently a small lock that
+
+ // Lock to protect Shim data structures. This is currently a small lock that
// protects leaf-level structures, but it may grow to protect larger things.
RSLock m_ShimLock;
@@ -559,21 +562,21 @@ protected:
// True iff we are in the shim's CreateProcess callback. This is used to determine which hresult to
// return from code:CordbProcess::SetDesiredNGENCompilerFlags so we correctly emulate the behavior of v2.0.
- // This is set at the beginning of the callback and cleared in code:CordbProcess::ContinueInternal.
+ // This is set at the beginning of the callback and cleared in code:CordbProcess::ContinueInternal.
bool m_fInCreateProcess;
// True iff we are in the shim's FakeLoadModule callback. This is used to determine which hresult to
// return from code:CordbModule::SetJITCompilerFlags so we correctly emulate the behavior of v2.0.
- // This is set at the beginning of the callback and cleared in code:CordbProcess::ContinueInternal.
+ // This is set at the beginning of the callback and cleared in code:CordbProcess::ContinueInternal.
bool m_fInLoadModule;
//
// Data
//
- // Pointer to CordbProcess.
+ // Pointer to CordbProcess.
// @dbgtodo shim: We'd like this to eventually go through public interfaces (ICorDebugProcess)
IProcessShimHooks * m_pProcess; // Reference is kept by m_pIProcess;
- RSExtSmartPtr<ICorDebugProcess> m_pIProcess;
+ RSExtSmartPtr<ICorDebugProcess> m_pIProcess;
// Win32EvenThread, which is the thread that uses the native debug API.
CordbWin32EventThread * m_pWin32EventThread;
@@ -604,10 +607,10 @@ protected:
void DefaultEventHandler(const DEBUG_EVENT * pEvent, DWORD * pdwContinueStatus);
// Given a debug event, track the file handles.
- void TrackFileHandleForDebugEvent(const DEBUG_EVENT * pEvent);
+ void TrackFileHandleForDebugEvent(const DEBUG_EVENT * pEvent);
// Have we gotten the loader breakpoint yet?
- // A Debugger needs to do special work to skip the loader breakpoint,
+ // A Debugger needs to do special work to skip the loader breakpoint,
// and that's also when it should dispatch the faked managed attach events.
bool m_loaderBPReceived;
@@ -616,7 +619,7 @@ protected:
// Real worker to update ContinueStatusChangedData
HRESULT ContinueStatusChangedWorker(DWORD dwThreadId, CORDB_CONTINUE_STATUS dwContinueStatus);
-
+
struct ContinueStatusChangedData
{
void Clear();
@@ -640,8 +643,8 @@ protected:
//---------------------------------------------------------------------------------------
//
-// This is the container class of ShimChains, ICorDebugFrames, ShimChainEnums, and ShimFrameEnums.
-// It has a 1:1 relationship with ICorDebugThreads. Upon creation, this class walks the entire stack and
+// This is the container class of ShimChains, ICorDebugFrames, ShimChainEnums, and ShimFrameEnums.
+// It has a 1:1 relationship with ICorDebugThreads. Upon creation, this class walks the entire stack and
// caches all the stack frames and chains. The enumerators are created on demand.
//
@@ -693,7 +696,7 @@ private:
//
// This is a helper class used to store the information of a chain during a stackwalk. A chain is marked
// by the CONTEXT on the leaf boundary and a FramePointer on the root boundary. Also, notice that we
- // are keeping two CONTEXTs. This is because some chain types may cancel a previous unmanaged chain.
+ // are keeping two CONTEXTs. This is because some chain types may cancel a previous unmanaged chain.
// For example, a CHAIN_FUNC_EVAL chain cancels any CHAIN_ENTER_UNMANAGED chain immediately preceding
// it. In this case, the leaf boundary of the CHAIN_FUNC_EVAL chain is marked by the CONTEXT of the
// previous CHAIN_ENTER_MANAGED, not the previous CHAIN_ENTER_UNMANAGED.
@@ -746,7 +749,7 @@ private:
// Check whether we are skipping frames because of a child frame.
BOOL IsSkippingFrame();
- // Indicates whether we are dealing with a converted frame.
+ // Indicates whether we are dealing with a converted frame.
// See code:CordbThread::ConvertFrameForILMethodWithoutMetadata.
BOOL HasConvertedFrame();
@@ -757,7 +760,7 @@ private:
// Store the converted frame, if any.
RSExtSmartPtr<ICorDebugInternalFrame2> m_pConvertedInternalFrame2;
- // Store the array of internal frames. This is an array of RSExtSmartPtrs, and so each element
+ // Store the array of internal frames. This is an array of RSExtSmartPtrs, and so each element
// is protected, and we only need to call Clear() to release each element and free all the memory.
RSExtPtrArray<ICorDebugInternalFrame2> m_ppInternalFrame2;
@@ -772,10 +775,10 @@ private:
bool m_fExhaustedAllStackFrames;
// Indicate whether we are processing an internal frame or a stack frame.
- bool m_fProcessingInternalFrame;
+ bool m_fProcessingInternalFrame;
- // Indicate whether we should skip the current chain because it's a chain derived from a leaf frame
- // of type TYPE_INTERNAL. This is the behaviour in V2.
+ // Indicate whether we should skip the current chain because it's a chain derived from a leaf frame
+ // of type TYPE_INTERNAL. This is the behaviour in V2.
// See code:DebuggerWalkStackProc.
bool m_fSkipChain;
@@ -838,7 +841,7 @@ private:
BOOL IsILFrameWithoutMetadata(ICorDebugFrame * pFrame);
CDynArray<ShimChain *> m_stackChains; // growable ordered array of chains and frames
- CDynArray<ICorDebugFrame *> m_stackFrames;
+ CDynArray<ICorDebugFrame *> m_stackFrames;
ShimChainEnum * m_pChainEnumList; // linked list of ShimChainEnum and ShimFrameEnum
ShimFrameEnum * m_pFrameEnumList;
@@ -918,16 +921,16 @@ private:
FramePointer m_fpRoot; // the root end of the chain
ShimStackWalk * m_pStackWalk; // the owning ShimStackWalk
- Volatile<ULONG> m_refCount;
+ Volatile<ULONG> m_refCount;
// The 0-based index of this chain in the ShimStackWalk's chain array (m_pStackWalk->m_stackChains).
UINT32 m_chainIndex;
- // The 0-based index of the first frame owned by this chain in the ShimStackWalk's frame array
+ // The 0-based index of the first frame owned by this chain in the ShimStackWalk's frame array
// (m_pStackWalk->m_stackFrames). See code::ShimChain::GetFirstFrameIndex().
UINT32 m_frameStartIndex;
- // The 0-based index of the last frame owned by this chain in the ShimStackWalk's frame array
+ // The 0-based index of the last frame owned by this chain in the ShimStackWalk's frame array
// (m_pStackWalk->m_stackFrames). This index is exlusive. See code::ShimChain::GetLastFrameIndex().
UINT32 m_frameEndIndex;
@@ -978,7 +981,7 @@ public:
//
// accessors
- //
+ //
// used to link ShimChainEnums in a list
ShimChainEnum * GetNext();
@@ -994,7 +997,7 @@ private:
UINT32 m_currentChainIndex; // the index of the current ShimChain being enumerated
Volatile<ULONG> m_refCount;
BOOL m_fIsNeutered;
-
+
RSLock * m_pShimLock; // shim lock from ShimProcess to protect neuteredness checks
};
@@ -1038,7 +1041,7 @@ public:
//
// accessors
- //
+ //
// used to link ShimChainEnums in a list
ShimFrameEnum * GetNext();
diff --git a/src/debug/ee/debugger.cpp b/src/debug/ee/debugger.cpp
index cdb7380d5e..096c0d294b 100644
--- a/src/debug/ee/debugger.cpp
+++ b/src/debug/ee/debugger.cpp
@@ -63,7 +63,7 @@ GPTR_IMPL(Debugger, g_pDebugger);
GPTR_IMPL(EEDebugInterface, g_pEEInterface);
SVAL_IMPL_INIT(BOOL, Debugger, s_fCanChangeNgenFlags, TRUE);
-// This is a public export so debuggers can read and determine if the coreclr
+// This is a public export so debuggers can read and determine if the coreclr
// process is waiting for JIT debugging attach.
GVAL_IMPL_INIT(ULONG, CLRJitAttachState, 0);
@@ -195,7 +195,7 @@ void DoCompileTimeCheckOnDbgIpcEventTypes()
//-----------------------------------------------------------------------------
// Ctor for AtSafePlaceHolder
AtSafePlaceHolder::AtSafePlaceHolder(Thread * pThread)
-{
+{
_ASSERTE(pThread != NULL);
if (!g_pDebugger->IsThreadAtSafePlace(pThread))
{
@@ -223,7 +223,7 @@ bool AtSafePlaceHolder::IsAtUnsafePlace()
}
//-----------------------------------------------------------------------------
-// Clear the holder.
+// Clear the holder.
// Notes:
// This can be called multiple times.
// Calling this makes the dtor a nop.
@@ -317,7 +317,7 @@ HelperCanary * Debugger::GetCanary()
{
return g_pRCThread->GetCanary();
}
-
+
// IMPORTANT!!!!!
// Do not call Lock and Unlock directly. Because you might not unlock
// if exception takes place. Use DebuggerLockHolder instead!!!
@@ -472,15 +472,15 @@ void Debugger::DoNotCallDirectlyPrivateUnlock(void)
// ---------------------------------------------------------------------------------
// Send an event to the RS to signal that it should test to determine if a crst is held.
-// This is for testing purposes only.
+// This is for testing purposes only.
// Arguments:
// input: pCrst - the lock to test
// fOkToTake - true iff the LS does NOT currently hold the lock
-// output: none
+// output: none
// Notes: The RS will throw if the lock is held. The code that tests the lock will catch the
-// exception and assert if throwing was not the correct thing to do (determined via the
+// exception and assert if throwing was not the correct thing to do (determined via the
// boolean). See the case for DB_IPCE_TEST_CRST in code:CordbProcess::RawDispatchEvent.
-//
+//
void DataTest::SendDbgCrstEvent(Crst * pCrst, bool fOkToTake)
{
DebuggerIPCEvent * pLockEvent = g_pDebugger->m_pRCThread->GetIPCEventSendBuffer();
@@ -495,15 +495,15 @@ void DataTest::SendDbgCrstEvent(Crst * pCrst, bool fOkToTake)
} // DataTest::SendDbgCrstEvent
// Send an event to the RS to signal that it should test to determine if a SimpleRWLock is held.
-// This is for testing purposes only.
+// This is for testing purposes only.
// Arguments:
// input: pRWLock - the lock to test
// fOkToTake - true iff the LS does NOT currently hold the lock
-// output: none
+// output: none
// Note: The RS will throw if the lock is held. The code that tests the lock will catch the
-// exception and assert if throwing was not the correct thing to do (determined via the
+// exception and assert if throwing was not the correct thing to do (determined via the
// boolean). See the case for DB_IPCE_TEST_RWLOCK in code:CordbProcess::RawDispatchEvent.
-//
+//
void DataTest::SendDbgRWLockEvent(SimpleRWLock * pRWLock, bool okToTake)
{
DebuggerIPCEvent * pLockEvent = g_pDebugger->m_pRCThread->GetIPCEventSendBuffer();
@@ -516,17 +516,17 @@ void DataTest::SendDbgRWLockEvent(SimpleRWLock * pRWLock, bool okToTake)
g_pDebugger->SendRawEvent(pLockEvent);
} // DataTest::SendDbgRWLockEvent
-// Takes a series of locks in various ways and signals the RS to test the locks at interesting
-// points to ensure we reliably detect when the LS holds a lock. If in the course of inspection, the
-// DAC needs to execute a code path where the LS holds a lock, we assume that the locked data is in
+// Takes a series of locks in various ways and signals the RS to test the locks at interesting
+// points to ensure we reliably detect when the LS holds a lock. If in the course of inspection, the
+// DAC needs to execute a code path where the LS holds a lock, we assume that the locked data is in
// an inconsistent state. In this situation, we don't want to report information about this data, so
-// we throw an exception.
-// This is for testing purposes only.
-//
+// we throw an exception.
+// This is for testing purposes only.
+//
// Arguments: none
// Return Value: none
// Notes: See code:CordbProcess::RawDispatchEvent for the RS part of this test and code:Debugger::Startup
-// for the LS invocation of the test.
+// for the LS invocation of the test.
// The environment variable TestDataConsistency must be set to 1 to make this test run.
void DataTest::TestDataSafety()
{
@@ -983,7 +983,7 @@ Debugger::Debugger()
// Metadata data structure version numbers
//
// 1 - initial state of the layouts ( .Net 4.5.2 )
- //
+ //
// as data structure layouts change, add a new version number
// and comment the changes
m_mdDataStructureVersion = 1;
@@ -1005,7 +1005,7 @@ Debugger::~Debugger()
CONTRACTL_END;
// We explicitly leak the debugger object on shutdown. See Debugger::StopDebugger for details.
- _ASSERTE(!"Debugger dtor should not be called.");
+ _ASSERTE(!"Debugger dtor should not be called.");
}
#if defined(FEATURE_HIJACK) && !defined(PLATFORM_UNIX)
@@ -1020,7 +1020,7 @@ inline MemoryRange GetMemoryRangeForFunction(PFN_HIJACK_FUNCTION pfnStart, PFN_H
}
// static
-MemoryRange Debugger::s_hijackFunction[kMaxHijackFunctions] =
+MemoryRange Debugger::s_hijackFunction[kMaxHijackFunctions] =
{GetMemoryRangeForFunction(ExceptionHijack, ExceptionHijackEnd),
GetMemoryRangeForFunction(RedirectedHandledJITCaseForGCThreadControl_Stub,
RedirectedHandledJITCaseForGCThreadControl_StubEnd),
@@ -1036,7 +1036,7 @@ MemoryRange Debugger::s_hijackFunction[kMaxHijackFunctions] =
};
#endif // FEATURE_HIJACK && !PLATFORM_UNIX
-// Save the necessary information for the debugger to recognize an IP in one of the thread redirection
+// Save the necessary information for the debugger to recognize an IP in one of the thread redirection
// functions.
void Debugger::InitializeHijackFunctionAddress()
{
@@ -1387,7 +1387,7 @@ ULONG DebuggerMethodInfoTable::CheckDmiTable(void)
//---------------------------------------------------------------------------------------
//
-// Class constructor for DebuggerEval. This is the supporting data structure for
+// Class constructor for DebuggerEval. This is the supporting data structure for
// func-eval tracking.
//
// Arguments:
@@ -1415,8 +1415,8 @@ DebuggerEval::DebuggerEval(CONTEXT * pContext, DebuggerIPCE_FuncEvalInfo * pEval
m_classToken = pEvalInfo->funcClassMetadataToken;
// Note: we can't rely on just the DebuggerModule* or AppDomain* because the AppDomain
- // could get unloaded between now and when the funceval actually starts. So we stash an
- // AppDomain ID which is safe to use after the AD is unloaded. It's only safe to
+ // could get unloaded between now and when the funceval actually starts. So we stash an
+ // AppDomain ID which is safe to use after the AD is unloaded. It's only safe to
// use the DebuggerModule* after we've verified the ADID is still valid (i.e. by entering that domain).
m_debuggerModule = g_pDebugger->LookupOrCreateModule(pEvalInfo->vmDomainFile);
@@ -1424,7 +1424,7 @@ DebuggerEval::DebuggerEval(CONTEXT * pContext, DebuggerIPCE_FuncEvalInfo * pEval
{
// We have no associated code.
_ASSERTE((m_evalType == DB_IPCE_FET_NEW_STRING) || (m_evalType == DB_IPCE_FET_NEW_ARRAY));
-
+
// We'll just do the creation in whatever domain the thread is already in.
// It's conceivable that we might want to allow the caller to specify a specific domain, but
// ICorDebug provides the debugger with no was to specify the domain.
@@ -1510,7 +1510,7 @@ DebuggerEval::DebuggerEval(CONTEXT * pContext, Thread * pThread, Thread::ThreadA
m_rethrowAbortException = false;
m_retValueBoxing = Debugger::NoValueTypeBoxing;
m_requester = requester;
-
+
if (pContext == NULL)
{
memset(&m_context, 0, sizeof(m_context));
@@ -1670,7 +1670,7 @@ DebuggerHeap * Debugger::GetInteropSafeHeap_NoThrow()
_ASSERTE(!"InteropSafe Heap should have already been initialized in LazyInit");
// Just in case we miss it in retail, convert to OOM here:
- return NULL;
+ return NULL;
}
return &m_heap;
}
@@ -1713,7 +1713,7 @@ DebuggerHeap * Debugger::GetInteropSafeExecutableHeap_NoThrow()
_ASSERTE(!"InteropSafe Executable Heap should have already been initialized in LazyInit");
// Just in case we miss it in retail, convert to OOM here:
- return NULL;
+ return NULL;
}
return &m_executableHeap;
}
@@ -1727,14 +1727,14 @@ DebuggerHeap * Debugger::GetInteropSafeExecutableHeap_NoThrow()
// Called during startup path
//
// Notes:
-// If no debugger is attached, this does nothing.
+// If no debugger is attached, this does nothing.
//
//---------------------------------------------------------------------------------------
void Debugger::RaiseStartupNotification()
{
// Right-side will read this field from OOP via DAC-primitive to determine attach or launch case.
// We do an interlocked increment to gaurantee this is an atomic memory write, and to ensure
- // that it's flushed from any CPU cache into memory.
+ // that it's flushed from any CPU cache into memory.
InterlockedIncrement(&m_fLeftSideInitialized);
#ifndef FEATURE_DBGIPC_TRANSPORT_VM
@@ -1742,7 +1742,7 @@ void Debugger::RaiseStartupNotification()
// listening, and we will fail. However, we still want to initialize the variable above.
DebuggerIPCEvent startupEvent;
InitIPCEvent(&startupEvent, DB_IPCE_LEFTSIDE_STARTUP, NULL, VMPTR_AppDomain::NullPtr());
-
+
SendRawEvent(&startupEvent);
// RS will set flags from OOP while we're stopped at the event if it wants to attach.
@@ -1788,13 +1788,13 @@ void Debugger::SendRawEvent(const DebuggerIPCEvent * pManagedEvent)
// We get to send an array of ULONG_PTRs as data with the notification.
// The debugger can then use ReadProcessMemory to read through this array.
ULONG_PTR rgData [] = {
- CLRDBG_EXCEPTION_DATA_CHECKSUM,
- (ULONG_PTR) g_pMSCorEE,
+ CLRDBG_EXCEPTION_DATA_CHECKSUM,
+ (ULONG_PTR) g_pMSCorEE,
(ULONG_PTR) pManagedEvent
};
// If no debugger attached, then don't bother raising a 1st-chance exception because nobody will sniff it.
- // @dbgtodo iDNA: in iDNA case, the recorder may sniff it.
+ // @dbgtodo iDNA: in iDNA case, the recorder may sniff it.
if (!IsDebuggerPresent())
{
return;
@@ -1810,14 +1810,14 @@ void Debugger::SendRawEvent(const DebuggerIPCEvent * pManagedEvent)
const DWORD dwFlags = 0; // continuable (eg, Debugger can continue GH)
RaiseException(CLRDBG_NOTIFICATION_EXCEPTION_CODE, dwFlags, NumItems(rgData), rgData);
- // If debugger continues "GH" (DBG_CONTINUE), then we land here.
+ // If debugger continues "GH" (DBG_CONTINUE), then we land here.
// This is the expected path for a well-behaved ICorDebug debugger.
}
EX_CATCH
{
// If no debugger is attached, or if the debugger continues "GN" (DBG_EXCEPTION_NOT_HANDLED), then we land here.
// A naive (not-ICorDebug aware) native-debugger won't handle the exception and so land us here.
- // We may also get here if a debugger detaches at the Exception notification
+ // We may also get here if a debugger detaches at the Exception notification
// (and thus implicitly continues GN).
}
EX_END_CATCH(SwallowAllExceptions);
@@ -1835,25 +1835,25 @@ void Debugger::SendRawEvent(const DebuggerIPCEvent * pManagedEvent)
// This will start a synchronization.
//
// Notes:
-// In V2, this also gives the RS a chance to intialize the IPC protocol.
+// In V2, this also gives the RS a chance to intialize the IPC protocol.
// Spefically, this needs to be sent before the LS can send a sync-complete.
//---------------------------------------------------------------------------------------
void Debugger::SendCreateProcess(DebuggerLockHolder * pDbgLockHolder)
{
pDbgLockHolder->Release();
-
+
// Encourage helper thread to spin up so that we're in a consistent state.
PollWaitingForHelper();
- // we don't need to use SENDIPCEVENT_BEGIN/END macros that perform the debug-suspend aware checks,
+ // we don't need to use SENDIPCEVENT_BEGIN/END macros that perform the debug-suspend aware checks,
// as this code executes on the startup path...
SENDIPCEVENT_RAW_BEGIN(pDbgLockHolder);
- // Send a CreateProcess event.
+ // Send a CreateProcess event.
// @dbgtodo pipeline - eliminate these reasons for needing a CreateProcess event (part of pipeline feature crew)
// This will let the RS know that the IPC block is up + ready, and then the RS can read it.
// The RS will then update the DCB with enough information so that we can send the sync-complete.
- // (such as letting us know whether we're interop-debugging or not).
+ // (such as letting us know whether we're interop-debugging or not).
DebuggerIPCEvent event;
InitIPCEvent(&event, DB_IPCE_CREATE_PROCESS, NULL, VMPTR_AppDomain::NullPtr());
SendRawEvent(&event);
@@ -1865,8 +1865,8 @@ void Debugger::SendCreateProcess(DebuggerLockHolder * pDbgLockHolder)
TrapAllRuntimeThreads();
// Must have a thread object so that we ensure that we will actually block here.
- // This ensures the debuggee is actually stopped at startup, and
- // this gives the debugger a chance to call SetDesiredNGENFlags before we
+ // This ensures the debuggee is actually stopped at startup, and
+ // this gives the debugger a chance to call SetDesiredNGENFlags before we
// set s_fCanChangeNgenFlags to FALSE.
_ASSERTE(GetThread() != NULL);
SENDIPCEVENT_RAW_END;
@@ -1879,8 +1879,8 @@ void Debugger::SendCreateProcess(DebuggerLockHolder * pDbgLockHolder)
HANDLE g_hContinueStartupEvent = INVALID_HANDLE_VALUE;
CLR_ENGINE_METRICS g_CLREngineMetrics = {
- sizeof(CLR_ENGINE_METRICS),
- CorDebugVersion_4_0,
+ sizeof(CLR_ENGINE_METRICS),
+ CorDebugVersion_4_0,
&g_hContinueStartupEvent};
#define StartupNotifyEventNamePrefix W("TelestoStartupEvent_")
@@ -2027,7 +2027,7 @@ HRESULT Debugger::Startup(void)
// Must be done before the RC thread is initialized.
// @dbgtodo - In V2, LS was lazily initialized; but was eagerly pre-initialized if launched by debugger.
// (This was for perf reasons). But we don't want Launch vs. Attach checks in the LS, so we now always
- // init. As we move more to OOP, this init will become cheaper.
+ // init. As we move more to OOP, this init will become cheaper.
{
LazyInit();
DebuggerController::Initialize();
@@ -2036,7 +2036,11 @@ HRESULT Debugger::Startup(void)
InitializeHijackFunctionAddress();
// Also initialize the AppDomainEnumerationIPCBlock
+ #if !defined(FEATURE_IPCMAN) || defined(FEATURE_DBGIPC_TRANSPORT_VM)
m_pAppDomainCB = new (nothrow) AppDomainEnumerationIPCBlock();
+ #else
+ m_pAppDomainCB = g_pIPCManagerInterface->GetAppDomainBlock();
+ #endif
if (m_pAppDomainCB == NULL)
{
@@ -2047,7 +2051,7 @@ HRESULT Debugger::Startup(void)
hr = InitAppDomainIPC();
_ASSERTE(SUCCEEDED(hr)); // throws on error.
- // Allows the debugger (and profiler) diagnostics to be disabled so resources like
+ // Allows the debugger (and profiler) diagnostics to be disabled so resources like
// the named pipes and semaphores are not created.
if (CLRConfig::GetConfigValue(CLRConfig::EXTERNAL_EnableDiagnostics) == 0)
{
@@ -2099,7 +2103,7 @@ HRESULT Debugger::Startup(void)
}
#ifdef TEST_DATA_CONSISTENCY
- // if we have set the environment variable TestDataConsistency, run the data consistency test.
+ // if we have set the environment variable TestDataConsistency, run the data consistency test.
// See code:DataTest::TestDataSafety for more information
if ((g_pConfig != NULL) && (g_pConfig->TestDataConsistency() == true))
{
@@ -2110,14 +2114,14 @@ HRESULT Debugger::Startup(void)
}
#ifdef FEATURE_PAL
- // Signal the debugger (via dbgshim) and wait until it is ready for us to
+ // Signal the debugger (via dbgshim) and wait until it is ready for us to
// continue. This needs to be outside the lock and after the transport is
// initialized.
if (PAL_NotifyRuntimeStarted())
{
// The runtime was successfully launched and attached so mark it now
- // so no notifications are missed especially the initial module load
- // which would cause debuggers problems with reliable setting breakpoints
+ // so no notifications are missed especially the initial module load
+ // which would cause debuggers problems with reliable setting breakpoints
// in startup code or Main.
MarkDebuggerAttachedInternal();
}
@@ -2137,7 +2141,7 @@ HRESULT Debugger::Startup(void)
// pThread - the current thread. Must be non-null
//
// Notes:
-// Most debugger initialization is done in code:Debugger.Startup,
+// Most debugger initialization is done in code:Debugger.Startup,
// However, debugger can't block on synchronization without a Thread object,
// so sending IPC events must wait until after we have a thread object.
//---------------------------------------------------------------------------------------
@@ -2195,7 +2199,7 @@ HRESULT Debugger::StartupPhase2(Thread * pThread)
// Remove the env var from our process so that the debugger we spin up won't inherit it.
// Else, if the debugger is managed, we'll have an infinite recursion.
BOOL fOk = WszSetEnvironmentVariable(DBG_ATTACH_ON_STARTUP_ENV_VAR, NULL);
-
+
if (fOk)
{
// We've already created the helper thread (which can service the attach request)
@@ -2231,7 +2235,7 @@ HRESULT Debugger::StartupPhase2(Thread * pThread)
// controlled point in time. This is useful for those callers into the debugger (e.g.,
// ETW rundown) that know they will need the lazy data initialized but cannot afford to
// have it initialized unpredictably or inside a lock.
-//
+//
// This may be called more than once, and will know to initialize the lazy data only
// once.
//
@@ -2457,7 +2461,7 @@ DebuggerLazyInit::~DebuggerLazyInit()
//
// RequestFavor can be called in stack-overflow scenarios and thus explicitly
// avoids any lazy initialization.
-// It blocks until the favor callback completes.
+// It blocks until the favor callback completes.
//
// Parameters:
// fp - a non-null Favour callback function
@@ -2465,7 +2469,7 @@ DebuggerLazyInit::~DebuggerLazyInit()
//
// Return values:
// S_OK if the function succeeds, else a failure HRESULT
-//
+//
HRESULT Debugger::RequestFavor(FAVORCALLBACK fp, void * pData)
{
@@ -2477,12 +2481,12 @@ HRESULT Debugger::RequestFavor(FAVORCALLBACK fp, void * pData)
PRECONDITION(fp != NULL);
}
CONTRACTL_END;
-
- if (m_pRCThread == NULL ||
+
+ if (m_pRCThread == NULL ||
m_pRCThread->GetRCThreadId() == GetCurrentThreadId())
{
// Since favors are only used internally, we know that the helper should alway be up and ready
- // to handle them. Also, since favors can be used in low-stack scenarios, there's not any
+ // to handle them. Also, since favors can be used in low-stack scenarios, there's not any
// extra initialization needed for them.
_ASSERTE(!"Helper not initialized for favors.");
return E_UNEXPECTED;
@@ -2521,8 +2525,8 @@ void Debugger::StopDebugger(void)
GC_NOTRIGGER;
}
CONTRACTL_END;
-
- // Leak almost everything on process exit. The OS will clean it up anyways and trying to
+
+ // Leak almost everything on process exit. The OS will clean it up anyways and trying to
// clean it up ourselves is just one more place we may AV / deadlock.
#if defined(FEATURE_DBGIPC_TRANSPORT_VM)
@@ -2539,12 +2543,12 @@ void Debugger::StopDebugger(void)
TerminateAppDomainIPC ();
//
- // Tell the VM to clear out all references to the debugger before we start cleaning up,
+ // Tell the VM to clear out all references to the debugger before we start cleaning up,
// so that nothing will reference (accidentally) through the partially cleaned up debugger.
//
- // NOTE: we cannot clear out g_pDebugger before the delete call because the
+ // NOTE: we cannot clear out g_pDebugger before the delete call because the
// stuff in delete (particularly deleteinteropsafe) needs to look at it.
- //
+ //
g_pEEInterface->ClearAllDebugInterfaceReferences();
g_pDebugger = NULL;
}
@@ -2800,7 +2804,7 @@ DebuggerJitInfo *Debugger::GetJitInfo(MethodDesc *fd, const BYTE *pbAddr, Debugg
CONTRACTL_END;
// Address should be non-null and in range of MethodDesc. This lets us tell which EnC version.
- _ASSERTE(pbAddr != NULL);
+ _ASSERTE(pbAddr != NULL);
return GetJitInfoWorker(fd, pbAddr, pMethInfo);
@@ -3061,7 +3065,7 @@ HRESULT Debugger::GetILToNativeMapping(PCODE pNativeCodeStartAddress, ULONG32 cM
return (S_OK);
#else
return E_NOTIMPL;
-#endif
+#endif
}
@@ -3108,10 +3112,10 @@ HRESULT Debugger::GetILToNativeMapping(PCODE pNativeCodeStartAddress, ULONG32 cM
HRESULT Debugger::GetILToNativeMappingIntoArrays(
MethodDesc * pMethodDesc,
- PCODE pCode,
- USHORT cMapMax,
+ PCODE pCode,
+ USHORT cMapMax,
USHORT * pcMap,
- UINT ** prguiILOffset,
+ UINT ** prguiILOffset,
UINT ** prguiNativeOffset)
{
CONTRACTL
@@ -3121,7 +3125,7 @@ HRESULT Debugger::GetILToNativeMappingIntoArrays(
GC_NOTRIGGER;
}
CONTRACTL_END;
-
+
_ASSERTE(pcMap != NULL);
_ASSERTE(prguiILOffset != NULL);
_ASSERTE(prguiNativeOffset != NULL);
@@ -3300,7 +3304,7 @@ void Debugger::getBoundariesHelper(MethodDesc * md,
// instrumented IL map if one exists.
if (dmi->HasInstrumentedILMap())
{
- InstrumentedILOffsetMapping mapping =
+ InstrumentedILOffsetMapping mapping =
dmi->GetRuntimeModule()->GetInstrumentedILOffsetMapping(dmi->m_token);
for (SIZE_T i = 0; i < n; i++)
@@ -3542,8 +3546,8 @@ Exit:
#ifndef DACCESS_COMPILE
-// If we have a varargs function, we can't set the IP (we don't know how to pack/unpack the arguments), so if we
-// call SetIP with fCanSetIPOnly = true, we need to check for that.
+// If we have a varargs function, we can't set the IP (we don't know how to pack/unpack the arguments), so if we
+// call SetIP with fCanSetIPOnly = true, we need to check for that.
// Arguments:
// input: nEntries - number of entries in varNativeInfo
// varNativeInfo - array of entries describing the args and locals for the function
@@ -3558,7 +3562,7 @@ BOOL Debugger::IsVarArgsFunction(unsigned int nEntries, PTR_NativeVarInfo varNat
}
}
return FALSE;
-}
+}
// We want to keep the 'worst' HRESULT - if one has failed (..._E_...) & the
// other hasn't, take the failing one. If they've both/neither failed, then
@@ -3856,7 +3860,7 @@ HRESULT Debugger::SetIP( bool fCanSetIPOnly, Thread *thread,Module *module,
// have garbage left over in them, and we don't want the GC to try and dereference them
// as object references. However, we can't easily tell here which of the callee-saved regs
// are used in this method and therefore safe to clear.
- //
+ //
hr = ShuffleVariablesSet(dji,
offsetNatTo,
@@ -4129,7 +4133,7 @@ GetSetFrameHelper::GetSetFrameHelper() : m_pMD(NULL), m_rgSize(NULL), m_rgElemTy
//
// return value: S_OK or E_OUTOFMEMORY
//
-HRESULT
+HRESULT
GetSetFrameHelper::Init(MethodDesc *pMD)
{
CONTRACTL
@@ -4141,16 +4145,16 @@ GetSetFrameHelper::Init(MethodDesc *pMD)
PRECONDITION(CheckPointer(pMD));
}
CONTRACTL_END;
-
+
HRESULT hr = S_OK;
COR_ILMETHOD* pILHeader = NULL;
m_pMD = pMD;
MetaSig *pLocSig = NULL;
MetaSig *pArgSig = NULL;
-
+
m_rgSize = NULL;
m_rgElemType = NULL;
-
+
// Initialize decoderOldIL before checking the method argument signature.
EX_TRY
{
@@ -4159,39 +4163,39 @@ GetSetFrameHelper::Init(MethodDesc *pMD)
EX_CATCH_HRESULT(hr);
if (FAILED(hr))
return hr;
-
+
COR_ILMETHOD_DECODER decoderOldIL(pILHeader);
mdSignature mdLocalSig = (decoderOldIL.GetLocalVarSigTok()) ? (decoderOldIL.GetLocalVarSigTok()):
(mdSignatureNil);
-
+
PCCOR_SIGNATURE pCallSig;
DWORD cbCallSigSize;
-
+
pMD->GetSig(&pCallSig, &cbCallSigSize);
-
+
if (pCallSig != NULL)
{
// Yes, we do need to pass in the text because this might be generic function!
SigTypeContext tmpContext(pMD);
-
+
pArgSig = new (interopsafe, nothrow) MetaSig(pCallSig,
cbCallSigSize,
pMD->GetModule(),
&tmpContext,
MetaSig::sigMember);
-
+
if (pArgSig == NULL)
{
IfFailGo(E_OUTOFMEMORY);
}
-
+
m_numArgs = pArgSig->NumFixedArgs();
-
+
if (pArgSig->HasThis())
{
m_numArgs++;
}
-
+
// <TODO>
// What should we do in this case?
// </TODO>
@@ -4200,7 +4204,7 @@ GetSetFrameHelper::Init(MethodDesc *pMD)
m_numArgs++;
*/
}
-
+
// allocation of pArgSig succeeded
ULONG cbSig;
PCCOR_SIGNATURE pLocalSig;
@@ -4217,21 +4221,21 @@ GetSetFrameHelper::Init(MethodDesc *pMD)
pMD->GetModule(),
&tmpContext,
MetaSig::sigLocalVars);
-
+
if (pLocSig == NULL)
{
IfFailGo(E_OUTOFMEMORY);
}
}
-
+
// allocation of pLocalSig succeeded
m_numTotalVars = m_numArgs + (pLocSig != NULL ? pLocSig->NumFixedArgs() : 0);
-
+
if (m_numTotalVars > 0)
{
m_rgSize = new (interopsafe, nothrow) SIZE_T[m_numTotalVars];
m_rgElemType = new (interopsafe, nothrow) CorElementType[m_numTotalVars];
-
+
if ((m_rgSize == NULL) || (m_rgElemType == NULL))
{
IfFailGo(E_OUTOFMEMORY);
@@ -4251,20 +4255,20 @@ GetSetFrameHelper::Init(MethodDesc *pMD)
{
pCur = pLocSig;
}
-
+
// The "this" argument isn't stored in the signature, so we have to
// check for it manually.
if (i == 0 && pCur->HasThis())
{
_ASSERTE(pCur == pArgSig);
-
+
m_rgElemType[i] = ELEMENT_TYPE_CLASS;
m_rgSize[i] = sizeof(SIZE_T);
}
else
{
m_rgElemType[i] = pCur->NextArg();
-
+
if (m_rgElemType[i] == ELEMENT_TYPE_VALUETYPE)
{
m_rgSize[i] = GetValueClassSize(pCur);
@@ -4273,39 +4277,39 @@ GetSetFrameHelper::Init(MethodDesc *pMD)
{
m_rgSize[i] = GetSetFrameHelper::GetSizeOfElement(m_rgElemType[i]);
}
-
+
LOG((LF_CORDB, LL_INFO10000, "GSFH::I: var 0x%x is of type %x, size:0x%x\n",
i, m_rgElemType[i], m_rgSize[i]));
}
}
} // allocation of m_rgSize and m_rgElemType succeeded
} // if there are variables to take care of
-
+
ErrExit:
// clean up
if (pArgSig != NULL)
{
DeleteInteropSafe(pArgSig);
}
-
+
if (pLocSig != NULL)
{
DeleteInteropSafe(pLocSig);
}
-
+
if (FAILED(hr))
{
if (m_rgSize != NULL)
{
DeleteInteropSafe(m_rgSize);
}
-
+
if (m_rgElemType != NULL)
{
DeleteInteropSafe((int*)m_rgElemType);
}
}
-
+
return hr;
} // GetSetFrameHelper::Init
@@ -4491,7 +4495,7 @@ bool GetSetFrameHelper::GetValueClassSizeOfVar(int varNum, ICorDebugInfo::VarLoc
*pSize = sizeof(LPVOID);
return false;
- }
+ }
// This check is only safe after we make sure that varNum is not negative.
if ((UINT)varNum >= m_numTotalVars)
@@ -4606,21 +4610,21 @@ HRESULT Debugger::GetVariablesFromOffset(MethodDesc *pMD,
for (UINT i = 0; i< varNativeInfoCount;i++)
{
// Ignore variables not live at offsetFrom
- //
+ //
// #VarLife
- //
+ //
// The condition below is a little strange. If a var is alive when this is true:
- //
+ //
// startOffset <= offsetFrom < endOffset
- //
+ //
// Then you'd expect the negated expression below to be:
- //
+ //
// startOffset > offsetFrom || endOffset <= offsetFrom
- //
+ //
// instead of what we're doing ("<" instead of "<="):
- //
+ //
// startOffset > offsetFrom || endOffset < offsetFrom
- //
+ //
// I'm not sure if the condition below is a mistake, or if it's intentionally
// mirroring a workaround from FindNativeInfoInILVariableArray() (Debug\DI\module.cpp)
// to deal with optimized code. So I'm leaving it alone for now. See
@@ -4769,7 +4773,7 @@ HRESULT Debugger::SetVariablesAtOffset(MethodDesc *pMD,
for (UINT i = 0;i< varNativeInfoCount;i++)
{
// Ignore variables not live at offsetTo
- //
+ //
// If this IF condition looks wrong to you, see
// code:Debugger::GetVariablesFromOffset#VarLife for more info
if ((varNativeInfo[i].startOffset > offsetTo) ||
@@ -4856,7 +4860,7 @@ HRESULT Debugger::SetVariablesAtOffset(MethodDesc *pMD,
return hr;
}
-BOOL IsDuplicatePatch(SIZE_T *rgEntries,
+BOOL IsDuplicatePatch(SIZE_T *rgEntries,
ULONG cEntries,
SIZE_T Entry )
{
@@ -5077,12 +5081,12 @@ HRESULT Debugger::MapAndBindFunctionPatches(DebuggerJitInfo *djiNew,
LOG((LF_CORDB,LL_INFO10000, "D::MABFP: Unlocked patch table\n"));
- // Now send any Breakpoint bind error events.
+ // Now send any Breakpoint bind error events.
if (listUnbindablePatches.Count() > 0)
{
LockAndSendBreakpointSetError(&listUnbindablePatches);
}
-
+
return hr;
}
@@ -5236,7 +5240,7 @@ void Debugger::SendSyncCompleteIPCEvent()
}
// If we're not marked as attached yet, then do that now.
- // This can be safely called multiple times.
+ // This can be safely called multiple times.
// This can happen in the normal attach case. The Right-side sends an async-break,
// but we don't want to be considered attach until we've actually gotten our first synchronization.
// Else threads may slip forward during attach and send debug events while we're tyring to attach.
@@ -5279,16 +5283,16 @@ void Debugger::SendSyncCompleteIPCEvent()
//
// Lookup or create a DebuggerModule for the given pDomainFile.
-//
+//
// Arguments:
// pDomainFile - non-null domain file.
-//
+//
// Returns:
// DebuggerModule instance for the given domain file. May be lazily created.
//
// Notes:
// @dbgtodo JMC - this should go away when we get rid of DebuggerModule.
-//
+//
DebuggerModule * Debugger::LookupOrCreateModule(DomainFile * pDomainFile)
{
@@ -5303,15 +5307,15 @@ DebuggerModule * Debugger::LookupOrCreateModule(DomainFile * pDomainFile)
}
// Overloaded Wrapper around for VMPTR_DomainFile-->DomainFile*
-//
+//
// Arguments:
// vmDomainFile - VMPTR cookie for a domain file. This can be NullPtr().
-//
+//
// Returns:
// Debugger Module instance for the given domain file. May be lazily created.
-//
+//
// Notes:
-// VMPTR comes from IPC events
+// VMPTR comes from IPC events
DebuggerModule * Debugger::LookupOrCreateModule(VMPTR_DomainFile vmDomainFile)
{
DomainFile * pDomainFile = vmDomainFile.GetRawPtr();
@@ -5323,14 +5327,14 @@ DebuggerModule * Debugger::LookupOrCreateModule(VMPTR_DomainFile vmDomainFile)
}
// Lookup or create a DebuggerModule for the given (Module, AppDomain) pair.
-//
+//
// Arguments:
// pModule - required runtime module. May be domain netural.
// pAppDomain - required appdomain that the module is in.
-//
+//
// Returns:
// Debugger Module isntance for the given domain file. May be lazily created.
-//
+//
DebuggerModule* Debugger::LookupOrCreateModule(Module* pModule, AppDomain *pAppDomain)
{
CONTRACTL
@@ -5343,11 +5347,11 @@ DebuggerModule* Debugger::LookupOrCreateModule(Module* pModule, AppDomain *pAppD
LOG((LF_CORDB, LL_INFO1000, "D::LOCM m=0x%x ad=0x%x\n", pModule, pAppDomain));
- // DebuggerModules are relative to a specific AppDomain so we should always be looking up a module /
+ // DebuggerModules are relative to a specific AppDomain so we should always be looking up a module /
// AppDomain pair.
_ASSERTE( pModule != NULL );
_ASSERTE( pAppDomain != NULL );
-
+
// This is called from all over. We just need to lock in order to lookup. We don't need
// the lock when actually using the DebuggerModule (since it won't be unloaded as long as there is a thread
// in that appdomain). Many of our callers already have this lock, many don't.
@@ -5372,7 +5376,7 @@ DebuggerModule* Debugger::LookupOrCreateModule(Module* pModule, AppDomain *pAppD
}
else
{
- dmod = m_pModules->GetModule(pModule);
+ dmod = m_pModules->GetModule(pModule);
}
}
@@ -5387,24 +5391,24 @@ DebuggerModule* Debugger::LookupOrCreateModule(Module* pModule, AppDomain *pAppD
dmod = AddDebuggerModule(pDomainFile); // throws
}
EX_CATCH_HRESULT(hr);
- SIMPLIFYING_ASSUMPTION(dmod != NULL); // may not be true in OOM cases; but LS doesn't handle OOM.
+ SIMPLIFYING_ASSUMPTION(dmod != NULL); // may not be true in OOM cases; but LS doesn't handle OOM.
}
// The module must be in the AppDomain that was requested
_ASSERTE( (dmod == NULL) || (dmod->GetAppDomain() == pAppDomain) );
LOG((LF_CORDB, LL_INFO1000, "D::LOCM m=0x%x ad=0x%x -> dm=0x%x\n", pModule, pAppDomain, dmod));
- return dmod;
+ return dmod;
}
// Create a new DebuggerModule object
-//
+//
// Arguments:
// pDomainFile- runtime domain file to create debugger module object around
-//
+//
// Returns:
// New instnace of a DebuggerModule. Throws on failure.
-//
+//
DebuggerModule* Debugger::AddDebuggerModule(DomainFile * pDomainFile)
{
CONTRACTL
@@ -5413,7 +5417,7 @@ DebuggerModule* Debugger::AddDebuggerModule(DomainFile * pDomainFile)
GC_NOTRIGGER;
}
CONTRACTL_END;
-
+
LOG((LF_CORDB, LL_INFO1000, "D::ADM df=0x%x\n", pDomainFile));
DebuggerDataLockHolder chInfo(this);
@@ -5442,7 +5446,7 @@ DebuggerModule* Debugger::AddDebuggerModule(DomainFile * pDomainFile)
// soon as possible. It also sets the EE up so that Runtime threads that
// are outside of the EE will trap when they try to re-enter.
//
-// @TODO::
+// @TODO::
// Neither pDbgLockHolder nor pAppDomain are used.
void Debugger::TrapAllRuntimeThreads()
{
@@ -5465,7 +5469,7 @@ void Debugger::TrapAllRuntimeThreads()
*/
#if !defined(FEATURE_DBGIPC_TRANSPORT_VM)
- // Only sync if RS requested it.
+ // Only sync if RS requested it.
if (!m_RSRequestedSync)
{
return;
@@ -5770,15 +5774,15 @@ void Debugger::TraceCall(const BYTE *code)
if (!CORDBUnrecoverableError(this))
{
- // There are situations where our callers can't tolerate us throwing.
+ // There are situations where our callers can't tolerate us throwing.
EX_TRY
{
- // Since we have a try catch and the debugger code can deal properly with
+ // Since we have a try catch and the debugger code can deal properly with
// faults occuring inside DebuggerController::DispatchTraceCall, we can safely
// establish a FAULT_NOT_FATAL region. This is required since some callers can't
// tolerate faults.
FAULT_NOT_FATAL();
-
+
DebuggerController::DispatchTraceCall(pCurThread, code);
}
EX_CATCH
@@ -5992,7 +5996,40 @@ bool Debugger::ThreadsAtUnsafePlaces(void)
return (m_threadsAtUnsafePlaces != 0);
}
-void Debugger::SomeWork()
+void Debugger::BeforeGarbageCollection()
+{
+ CONTRACTL
+ {
+ NOTHROW;
+ GC_NOTRIGGER;
+ }
+ CONTRACTL_END;
+
+ if (!CORDebuggerAttached())
+ {
+ return;
+ }
+
+ Thread* pThread = GetThread();
+
+ SENDIPCEVENT_BEGIN(this, pThread)
+
+ if (CORDBUnrecoverableError(this))
+ return;
+
+ // Send an event to the Right Side
+ DebuggerIPCEvent* ipce = m_pRCThread->GetIPCEventSendBuffer();
+ InitIPCEvent(ipce,
+ DB_IPCE_BEFORE_GARBAGE_COLLECTION,
+ pThread,
+ pThread->GetDomain());
+
+ SendSimpleIPCEventAndBlock();
+
+ SENDIPCEVENT_END;
+}
+
+void Debugger::AfterGarbageCollection()
{
CONTRACTL
{
@@ -6001,7 +6038,13 @@ void Debugger::SomeWork()
}
CONTRACTL_END;
- // DebuggerLockHolder lockHolder(this);
+ CONTRACT_VIOLATION(GCViolation);
+
+ if (!CORDebuggerAttached())
+ {
+ return;
+ }
+
Thread* pThread = GetThread();
SENDIPCEVENT_BEGIN(this, pThread)
@@ -6012,7 +6055,7 @@ void Debugger::SomeWork()
// Send an event to the Right Side
DebuggerIPCEvent* ipce = m_pRCThread->GetIPCEventSendBuffer();
InitIPCEvent(ipce,
- DB_IPCE_SOME_WORK,
+ DB_IPCE_AFTER_GARBAGE_COLLECTION,
pThread,
pThread->GetDomain());
@@ -6121,15 +6164,15 @@ void Debugger::SendBreakpoint(Thread *thread, CONTEXT *context,
// Notes:
// Can't assume that a debugger is attached (since it may detach before we get the lock).
void Debugger::SendUserBreakpointAndSynchronize(Thread * pThread)
-{
+{
AtSafePlaceHolder unsafePlaceHolder(pThread);
SENDIPCEVENT_BEGIN(this, pThread);
-
+
// Actually send the event
if (CORDebuggerAttached())
{
- SendRawUserBreakpoint(pThread);
+ SendRawUserBreakpoint(pThread);
TrapAllRuntimeThreads();
}
@@ -6170,7 +6213,7 @@ void Debugger::SendRawUserBreakpoint(Thread * pThread)
LOG((LF_CORDB, LL_INFO10000, "D::SRUB: user breakpoint\n"));
-
+
// Send a breakpoint event to the Right Side
DebuggerIPCEvent* pEvent = m_pRCThread->GetIPCEventSendBuffer();
@@ -6258,9 +6301,9 @@ void Debugger::SendStep(Thread *thread, CONTEXT *context,
// Send an EnC remap opportunity and block until it is continued.
//
// dji - current method information
-// currentIP - IL offset within that method
+// currentIP - IL offset within that method
// resumeIP - address of a SIZE_T that the RS will write to cross-process if they take the
-// remap opportunity. *resumeIP is untouched if the RS does not remap.
+// remap opportunity. *resumeIP is untouched if the RS does not remap.
//-------------------------------------------------------------------------------------------------
void Debugger::LockAndSendEnCRemapEvent(DebuggerJitInfo * dji, SIZE_T currentIP, SIZE_T *resumeIP)
{
@@ -6396,10 +6439,10 @@ void Debugger::LockAndSendEnCRemapCompleteEvent(MethodDesc *pFD)
// At this point, the EE is already stopped for handling an EnC ApplyChanges operation, so no need
// to take locks etc.
//
-void Debugger::SendEnCUpdateEvent(DebuggerIPCEventType eventType,
- Module * pModule,
- mdToken memberToken,
- mdTypeDef classToken,
+void Debugger::SendEnCUpdateEvent(DebuggerIPCEventType eventType,
+ Module * pModule,
+ mdToken memberToken,
+ mdTypeDef classToken,
SIZE_T enCVersion)
{
CONTRACTL
@@ -6451,7 +6494,7 @@ void Debugger::SendEnCUpdateEvent(DebuggerIPCEventType eventType,
// Send a BreakpointSetError event to the Right Side if the given patch is for a breakpoint. Note: we don't care if this
// fails, there is nothing we can do about it anyway, and the breakpoint just wont hit.
//
-void Debugger::LockAndSendBreakpointSetError(PATCH_UNORDERED_ARRAY * listUnbindablePatches)
+void Debugger::LockAndSendBreakpointSetError(PATCH_UNORDERED_ARRAY * listUnbindablePatches)
{
CONTRACTL
{
@@ -6461,14 +6504,14 @@ void Debugger::LockAndSendBreakpointSetError(PATCH_UNORDERED_ARRAY * listUnbinda
CONTRACTL_END;
_ASSERTE(listUnbindablePatches != NULL);
-
+
if (CORDBUnrecoverableError(this))
return;
ULONG count = listUnbindablePatches->Count();
_ASSERTE(count > 0); // must send at least 1 event.
-
+
Thread *thread = g_pEEInterface->GetThread();
// Note that the debugger lock is reentrant, so we may or may not hold it already.
@@ -6477,7 +6520,7 @@ void Debugger::LockAndSendBreakpointSetError(PATCH_UNORDERED_ARRAY * listUnbinda
DebuggerIPCEvent* ipce = m_pRCThread->GetIPCEventSendBuffer();
for(ULONG i = 0; i < count; i++)
- {
+ {
DebuggerControllerPatch *patch = listUnbindablePatches->Table()[i];
_ASSERTE(patch != NULL);
@@ -6622,7 +6665,7 @@ void Debugger::SyncAllThreads(DebuggerLockHolder *dbgLockHolder)
// Notes:
// This function doesn't try to stop the launched native debugger by calling DebugBreak().
// It sends a breakpoint event only for managed debuggers.
-//
+//
HRESULT Debugger::LaunchDebuggerForUser(Thread * pThread, EXCEPTION_POINTERS * pExceptionInfo,
BOOL useManagedBPForManagedAttach, BOOL explicitUserRequest)
{
@@ -6633,7 +6676,7 @@ HRESULT Debugger::LaunchDebuggerForUser(Thread * pThread, EXCEPTION_POINTERS * p
//
// Initiate a jit attach
//
- JitAttach(pThread, pExceptionInfo, useManagedBPForManagedAttach, explicitUserRequest);
+ JitAttach(pThread, pExceptionInfo, useManagedBPForManagedAttach, explicitUserRequest);
if (useManagedBPForManagedAttach)
{
@@ -6659,7 +6702,7 @@ HRESULT Debugger::LaunchDebuggerForUser(Thread * pThread, EXCEPTION_POINTERS * p
//
DebugBreak();
}
-
+
if (!IsDebuggerPresent())
{
LOG((LF_CORDB, LL_ERROR, "D::LDFU: Failed to launch the debugger.\n"));
@@ -6677,9 +6720,9 @@ EXCEPTION_RECORD Debugger::s_DebuggerLaunchJitInfoExceptionRecord = {0};
CONTEXT Debugger::s_DebuggerLaunchJitInfoContext = {0};
//----------------------------------------------------------------------------
-//
+//
// InitDebuggerLaunchJitInfo - initialize JDI structure on Vista
-//
+//
// Arguments:
// pThread - the managed thread with the unhandled excpetion
// pExceptionInfo - unhandled exception info
@@ -6692,7 +6735,7 @@ void Debugger::InitDebuggerLaunchJitInfo(Thread * pThread, EXCEPTION_POINTERS *
{
LIMITED_METHOD_CONTRACT;
- _ASSERTE((pExceptionInfo != NULL) &&
+ _ASSERTE((pExceptionInfo != NULL) &&
(pExceptionInfo->ContextRecord != NULL) &&
(pExceptionInfo->ExceptionRecord != NULL));
@@ -6705,7 +6748,7 @@ void Debugger::InitDebuggerLaunchJitInfo(Thread * pThread, EXCEPTION_POINTERS *
s_DebuggerLaunchJitInfoContext = *pExceptionInfo->ContextRecord;
s_DebuggerLaunchJitInfo.dwSize = sizeof(s_DebuggerLaunchJitInfo);
- s_DebuggerLaunchJitInfo.dwThreadID = pThread == NULL ? GetCurrentThreadId() : pThread->GetOSThreadId();
+ s_DebuggerLaunchJitInfo.dwThreadID = pThread == NULL ? GetCurrentThreadId() : pThread->GetOSThreadId();
s_DebuggerLaunchJitInfo.lpExceptionRecord = reinterpret_cast<ULONG64>(&s_DebuggerLaunchJitInfoExceptionRecord);
s_DebuggerLaunchJitInfo.lpContextRecord = reinterpret_cast<ULONG64>(&s_DebuggerLaunchJitInfoContext);
s_DebuggerLaunchJitInfo.lpExceptionAddress = s_DebuggerLaunchJitInfoExceptionRecord.ExceptionAddress != NULL ?
@@ -6727,9 +6770,9 @@ void Debugger::InitDebuggerLaunchJitInfo(Thread * pThread, EXCEPTION_POINTERS *
//----------------------------------------------------------------------------
-//
+//
// GetDebuggerLaunchJitInfo - retrieve the initialized JDI structure on Vista
-//
+//
// Arguments:
// None
//
@@ -6815,7 +6858,7 @@ DebuggerLaunchSetting Debugger::GetDbgJITDebugLaunchSetting()
setting = DLS_ATTACH_DEBUGGER;
}
#endif // FEATURE_PAL
-
+
return setting;
}
@@ -6848,7 +6891,7 @@ bool Debugger::GetCompleteDebuggerLaunchString(SString * pStrArgsBuf)
}
CONTRACTL_END;
-#ifndef FEATURE_PAL
+#ifndef FEATURE_PAL
DWORD pid = GetCurrentProcessId();
SString ssDebuggerString;
@@ -6860,16 +6903,16 @@ bool Debugger::GetCompleteDebuggerLaunchString(SString * pStrArgsBuf)
return false;
}
- // There is no security concern to expect that the debug string we retrieve from HKLM follows a certain
- // format because changing HKLM keys requires admin priviledge. Padding with zeros is not a security mitigation,
- // but rather a forward looking compability measure. If future verions of Windows introduces more parameters for
+ // There is no security concern to expect that the debug string we retrieve from HKLM follows a certain
+ // format because changing HKLM keys requires admin priviledge. Padding with zeros is not a security mitigation,
+ // but rather a forward looking compability measure. If future verions of Windows introduces more parameters for
// JIT debugger launch, it is preferrable to pass zeros than other random values for those unsupported parameters.
pStrArgsBuf->Printf(ssDebuggerString, pid, GetUnmanagedAttachEvent(), GetDebuggerLaunchJitInfo(), 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
return true;
#else // !FEATURE_PAL
return false;
-#endif // !FEATURE_PAL
+#endif // !FEATURE_PAL
}
// Proxy code for EDA
@@ -6940,7 +6983,7 @@ HRESULT Debugger::EDAHelper(PROCESS_INFORMATION *pProcessInfo)
}
CONTRACTL_END;
-#ifndef FEATURE_PAL
+#ifndef FEATURE_PAL
LOG((LF_CORDB, LL_INFO10000, "D::EDA: thread 0x%x is launching the debugger.\n", GetCurrentThreadId()));
_ASSERTE(HasLazyData());
@@ -7019,7 +7062,7 @@ HRESULT Debugger::EDAHelper(PROCESS_INFORMATION *pProcessInfo)
// willSendManagedEvent - indicates whether or not we plan to send a managed debug event after the jit attach
// explicitUserRequest - TRUE if this attach is caused by a call to the Debugger.Launch() API.
//
-// Returns
+// Returns
// TRUE - if some other thread already has jit attach in progress -> this thread should block until that is complete
// FALSE - this is the first thread to jit attach -> this thread should launch the debugger
//
@@ -7046,7 +7089,7 @@ BOOL Debugger::PreJitAttach(BOOL willSendManagedEvent, BOOL willLaunchDebugger,
// the ThreadStore lock. The DebuggerMutex has to be broken into two smaller locks
// so that you can take that lock here when holding the ThreadStore lock.
DebuggerLockHolder dbgLockHolder(this);
-
+
if (!m_jitAttachInProgress)
{
m_jitAttachInProgress = TRUE;
@@ -7156,7 +7199,7 @@ HRESULT Debugger::LaunchJitDebuggerAndNativeAttach(Thread * pThread, EXCEPTION_P
// Indicate to the caller that the attach was aborted
if (res == WAIT_OBJECT_0 + 1)
{
- LOG((LF_CORDB, LL_INFO10000, "D::LJDANA: Debugger process is unexpectedly terminated!\n"));
+ LOG((LF_CORDB, LL_INFO10000, "D::LJDANA: Debugger process is unexpectedly terminated!\n"));
return E_FAIL;
}
@@ -7243,19 +7286,19 @@ void Debugger::PostJitAttach()
// explicitUserRequest - TRUE if this attach is caused by a call to the Debugger.Launch() API.
//
// Returns:
-// None. Callers can requery if a debugger is attached.
+// None. Callers can requery if a debugger is attached.
//
// Assumptions:
// This may be called by multiple threads, each firing their own debug events. This function will handle locking.
// Thus this could block for an arbitrary length of time:
-// - may need to prompt the user to decide if an attach occurs.
+// - may need to prompt the user to decide if an attach occurs.
// - may block waiting for a debugger to attach.
-//
+//
// Notes:
// The launch string is retrieved from code:GetDebuggerSettingInfo.
// This will not do a sync-complete. Instead, the caller can send a debug event (the jit-attach
-// event, such as a User-breakpoint or unhandled exception) and that can send a sync-complete,
-// just as if the debugger was always attached. This ensures that the jit-attach event is in the
+// event, such as a User-breakpoint or unhandled exception) and that can send a sync-complete,
+// just as if the debugger was always attached. This ensures that the jit-attach event is in the
// same callback queue as any faked-up events that the Right-side Shim creates.
//
void Debugger::JitAttach(Thread * pThread, EXCEPTION_POINTERS * pExceptionInfo, BOOL willSendManagedEvent, BOOL explicitUserRequest)
@@ -7287,7 +7330,7 @@ void Debugger::JitAttach(Thread * pThread, EXCEPTION_POINTERS * pExceptionInfo,
// pExceptionInfo - the unhandled exception info
// willSendManagedEvent - true if after getting (or staying) attached we will send
// a managed debug event
-// explicitUserRequest - true if this attach is caused by a call to the
+// explicitUserRequest - true if this attach is caused by a call to the
// Debugger.Launch() API.
//
// Returns:
@@ -7299,7 +7342,7 @@ void Debugger::JitAttach(Thread * pThread, EXCEPTION_POINTERS * pExceptionInfo,
// - JIT-atttach debugger spawned, and attached successfully.
// - JIT-attach debugger spawned, but declined to attach.
// - Failed to spawn jit-attach debugger.
-//
+//
// Ultimately, the only thing that matters at the end is whether a debugger
// is now attached, which is retreived via CORDebuggerAttached().
//-----------------------------------------------------------------------------
@@ -7408,7 +7451,7 @@ struct SendExceptionOnHelperThreadParams
// exceptionHandle : handle to the managed exception object (usually
// something derived from System.Exception)
// fContinuable : true iff continuable
-// framePointer : frame pointer associated with callback.
+// framePointer : frame pointer associated with callback.
// nOffset : il offset associated with callback.
// eventType : type of callback
// dwFlags : additional flags (see CorDebugExceptionFlags).
@@ -7417,8 +7460,8 @@ struct SendExceptionOnHelperThreadParams
// S_OK on sucess. Else some error. May also throw.
//
// Notes:
-// This is a helper for code:Debugger.SendExceptionEventsWorker.
-// See code:Debugger.SendException for more details about parameters.
+// This is a helper for code:Debugger.SendExceptionEventsWorker.
+// See code:Debugger.SendException for more details about parameters.
// This is always called on a managed thread (never the helper thread)
// This will synchronize and block.
//**************************************************************************
@@ -7488,7 +7531,7 @@ HRESULT Debugger::SendExceptionHelperAndBlock(
}
_ASSERTE(SUCCEEDED(hr) && "D::SE: Send ExceptionCallback2 event failed.");
-
+
if (SUCCEEDED(hr))
{
// Stop all Runtime threads
@@ -7505,7 +7548,7 @@ HRESULT Debugger::SendExceptionHelperAndBlock(
// Send various first-chance / unhandled exception events.
//
// Assumptions:
-// Caller has already determined that we want to send exception events.
+// Caller has already determined that we want to send exception events.
//
// Notes:
// This is a helper function for code:Debugger.SendException
@@ -7513,7 +7556,7 @@ void Debugger::SendExceptionEventsWorker(
Thread * pThread,
bool fFirstChance,
bool fIsInterceptable,
- bool fContinuable,
+ bool fContinuable,
SIZE_T currentIP,
FramePointer framePointer,
bool atSafePlace)
@@ -7525,7 +7568,7 @@ void Debugger::SendExceptionEventsWorker(
// Figure out parameters to the IPC events.
//
const BYTE *ip;
-
+
SIZE_T nOffset = (SIZE_T)ICorDebugInfo::NO_MAPPING;
DebuggerMethodInfo *pDebugMethodInfo = NULL;
@@ -7561,7 +7604,7 @@ void Debugger::SendExceptionEventsWorker(
}
}
}
-
+
DebuggerIPCEvent* ipce = m_pRCThread->GetIPCEventSendBuffer();
if (fFirstChance)
@@ -7574,7 +7617,7 @@ void Debugger::SendExceptionEventsWorker(
//
// Send the first chance exception if we have not already and if it is not suppressed
//
- if (m_sendExceptionsOutsideOfJMC && !pExState->GetFlags()->SentDebugFirstChance())
+ if (m_sendExceptionsOutsideOfJMC && !pExState->GetFlags()->SentDebugFirstChance())
{
// Blocking here is especially important so that the debugger can mark any code as JMC.
hr = SendExceptionHelperAndBlock(
@@ -7614,8 +7657,8 @@ void Debugger::SendExceptionEventsWorker(
//
// If this is a JMC function, then we send a USER's first chance as well.
//
- if ((pDebugMethodInfo != NULL) &&
- pDebugMethodInfo->IsJMCFunction() &&
+ if ((pDebugMethodInfo != NULL) &&
+ pDebugMethodInfo->IsJMCFunction() &&
!pExState->GetFlags()->SentDebugUserFirstChance())
{
SENDIPCEVENT_BEGIN(this, pThread);
@@ -7685,7 +7728,7 @@ void Debugger::SendExceptionEventsWorker(
//
// SendException is called by Runtime threads to send that they've hit an Managed exception to the Right Side.
-// This may block this thread and suspend the debuggee, and let the debugger inspect us.
+// This may block this thread and suspend the debuggee, and let the debugger inspect us.
//
// The thread's throwable should be set so that the debugger can inspect the current exception.
// It does not report native exceptions in native code (which is consistent because those don't have a
@@ -7695,22 +7738,22 @@ void Debugger::SendExceptionEventsWorker(
// is yet involved.
//
// Parameters:
-// pThread - the thread throwing the exception.
+// pThread - the thread throwing the exception.
// fFirstChance - true if this is a first chance exception. False if this is an unhandled exception.
-// currentIP - absolute native address of the exception if it is from managed code. If this is 0, we try to find it
+// currentIP - absolute native address of the exception if it is from managed code. If this is 0, we try to find it
// based off the thread's current exception state.
// currentSP - stack pointer of the exception. This will get converted into a FramePointer and then used by the debugger
// to identify which stack frame threw the exception.
// currentBSP - additional information for IA64 only to identify the stack frame.
// fContinuable - not used.
-// fAttaching - true iff this exception may initiate a jit-attach. In the common case, if this is true, then
+// fAttaching - true iff this exception may initiate a jit-attach. In the common case, if this is true, then
// CorDebuggerAttached() is false. However, since a debugger can attach at any time, it's possible
// for another debugger to race against the jit-attach and win. Thus this may err on the side of being true.
-// fForceNonInterceptable - This is used to determine if the exception is continuable (ie "Interceptible",
+// fForceNonInterceptable - This is used to determine if the exception is continuable (ie "Interceptible",
// we can handle a DB_IPCE_INTERCEPT_EXCEPTION event for it). If true, then the exception can not be continued.
-// If false, we get continuation status from the exception properties of the current thread.
+// If false, we get continuation status from the exception properties of the current thread.
//
-// Returns:
+// Returns:
// S_OK on success (common case by far).
// propogates other errors.
//
@@ -7773,7 +7816,7 @@ HRESULT Debugger::SendException(Thread *pThread,
if (fAttaching)
{
JitAttach(pThread, pExceptionInfo, managedEventNeeded, FALSE);
- // If the jit-attach occurred, CORDebuggerAttached() may now be true and we can
+ // If the jit-attach occurred, CORDebuggerAttached() may now be true and we can
// just act as if a debugger was always attached.
}
@@ -7782,10 +7825,10 @@ HRESULT Debugger::SendException(Thread *pThread,
{
// We have to send enabled, so enable now.
GCX_PREEMP_EEINTERFACE();
-
+
// Send the exception events. Even in jit-attach case, we should now be fully attached.
if (CORDebuggerAttached())
- {
+ {
// Initialize frame-pointer associated with exception notification.
LPVOID stackPointer;
if ((currentSP == 0) && (pExState->GetContextRecord() != NULL))
@@ -7797,18 +7840,18 @@ HRESULT Debugger::SendException(Thread *pThread,
stackPointer = (LPVOID)currentSP;
}
FramePointer framePointer = FramePointer::MakeFramePointer(stackPointer);
-
+
// Do the real work of sending the events
SendExceptionEventsWorker(
pThread,
fFirstChance,
fIsInterceptable,
- fContinuable,
+ fContinuable,
currentIP,
framePointer,
!unsafePlaceHolder.IsAtUnsafePlace());
- }
+ }
else
{
LOG((LF_CORDB,LL_INFO100, "D:SE: Skipping SendIPCEvent because not supposed to send anything, or RS detached.\n"));
@@ -7877,7 +7920,7 @@ void Debugger::ProcessAnyPendingEvals(Thread *pThread)
// FuncEvalComplete event, so if the user asks for another func eval then there will be a new pending eval when we
// loop and check again.
//
- DebuggerPendingFuncEval *pfe;
+ DebuggerPendingFuncEval *pfe;
while (GetPendingEvals() != NULL && (pfe = GetPendingEvals()->GetPendingEval(pThread)) != NULL)
{
@@ -7890,18 +7933,18 @@ void Debugger::ProcessAnyPendingEvals(Thread *pThread)
// that we can do another nested eval properly.
GetPendingEvals()->RemovePendingEval(pThread);
- // Go ahead and do the pending func eval. pDE is invalid after this.
+ // Go ahead and do the pending func eval. pDE is invalid after this.
void *ret;
ret = ::FuncEvalHijackWorker(pDE);
// The return value should be NULL when FuncEvalHijackWorker is called as part of an exception.
- _ASSERTE(ret == NULL);
+ _ASSERTE(ret == NULL);
}
// If we need to re-throw a ThreadAbortException, go ahead and do it now.
- if (GetThread()->m_StateNC & Thread::TSNC_DebuggerReAbort)
- {
+ if (GetThread()->m_StateNC & Thread::TSNC_DebuggerReAbort)
+ {
// Now clear the bit else we'll see it again when we process the Exception notification
// from this upcoming UserAbort exception.
pThread->ResetThreadStateNC(Thread::TSNC_DebuggerReAbort);
@@ -8002,14 +8045,14 @@ void Debugger::FirstChanceManagedExceptionCatcherFound(Thread *pThread,
DWORD nOffset = (DWORD)(SIZE_T)ICorDebugInfo::NO_MAPPING;
DebuggerMethodInfo *pDebugMethodInfo = NULL;
DebuggerJitInfo *pDebugJitInfo = NULL;
- bool isInJMCFunction = false;
+ bool isInJMCFunction = false;
if (pMD != NULL)
{
_ASSERTE(!pMD->IsILStub());
pDebugJitInfo = GetJitInfo(pMD, (const BYTE *) pMethodAddr, &pDebugMethodInfo);
- if (pDebugMethodInfo != NULL)
+ if (pDebugMethodInfo != NULL)
{
isInJMCFunction = pDebugMethodInfo->IsJMCFunction();
}
@@ -8017,9 +8060,9 @@ void Debugger::FirstChanceManagedExceptionCatcherFound(Thread *pThread,
// Here we check if debugger opted-out of receiving exception related events from outside of JMC methods
// or this exception ever crossed JMC frame (in this case we have already sent user first chance event)
- if (m_sendExceptionsOutsideOfJMC ||
- isInJMCFunction ||
- pThread->GetExceptionState()->GetFlags()->SentDebugUserFirstChance())
+ if (m_sendExceptionsOutsideOfJMC ||
+ isInJMCFunction ||
+ pThread->GetExceptionState()->GetFlags()->SentDebugUserFirstChance())
{
if (pDebugJitInfo != NULL)
{
@@ -8417,7 +8460,7 @@ FramePointer GetHandlerFramePointer(BYTE *pStack)
{
FramePointer handlerFP;
-#if !defined(_TARGET_ARM_) && !defined(_TARGET_ARM64_)
+#if !defined(_TARGET_ARM_) && !defined(_TARGET_ARM64_)
// Refer to the comment in DispatchUnwind() to see why we have to add
// sizeof(LPVOID) to the handler ebp.
handlerFP = FramePointer::MakeFramePointer(LPVOID(pStack + sizeof(void*)));
@@ -8605,7 +8648,7 @@ void LazyInitFavor(void *)
hr = g_pDebugger->LazyInitWrapper();
(void)hr; //prevent "unused variable" error from GCC
- // On checked builds, warn that we're hitting a scenario that debugging doesn't support.
+ // On checked builds, warn that we're hitting a scenario that debugging doesn't support.
_ASSERTE(SUCCEEDED(hr) || !"Couldn't initialize lazy data for LastChanceManagedException");
}
@@ -8691,21 +8734,21 @@ LONG Debugger::LastChanceManagedException(EXCEPTION_POINTERS * pExceptionInfo,
// using this thread's stack space.
if (jitAttachRequested)
{
- m_pRCThread->DoFavor((FAVORCALLBACK) LazyInitFavor, NULL);
+ m_pRCThread->DoFavor((FAVORCALLBACK) LazyInitFavor, NULL);
}
-
- // The only way we don't have lazy data at this point is in an OOM scenario, which
+
+ // The only way we don't have lazy data at this point is in an OOM scenario, which
// the debugger doesn't support.
if (!HasLazyData())
{
- return ExceptionContinueSearch;
+ return ExceptionContinueSearch;
}
- // In Whidbey, we used to set the filter CONTEXT when we hit an unhandled exception while doing
- // mixed-mode debugging. This helps the debugger walk the stack since it can skip the leaf
- // portion of the stack (including stack frames in the runtime) and start the stackwalk at the
- // faulting stack frame. The code to set the filter CONTEXT is in a hijack function which is only
+ // In Whidbey, we used to set the filter CONTEXT when we hit an unhandled exception while doing
+ // mixed-mode debugging. This helps the debugger walk the stack since it can skip the leaf
+ // portion of the stack (including stack frames in the runtime) and start the stackwalk at the
+ // faulting stack frame. The code to set the filter CONTEXT is in a hijack function which is only
// used during mixed-mode debugging.
if (m_pRCThread->GetDCB()->m_rightSideIsWin32Debugger)
{
@@ -8796,7 +8839,7 @@ int Debugger::NotifyUserOfFault(bool userBreakpoint, DebuggerLaunchSetting dls)
// lock is very small.
SUPPRESS_ALLOCATION_ASSERTS_IN_THIS_SCOPE;
- result = MessageBox(resIDMessage, IDS_DEBUG_SERVICE_CAPTION,
+ result = MessageBox(resIDMessage, IDS_DEBUG_SERVICE_CAPTION,
flags, TRUE, TRUE, pid, pid, tid, tid);
}
}
@@ -8859,7 +8902,7 @@ Debugger::ATTACH_ACTION Debugger::ShouldAttachDebuggerProxy(bool fIsUserBreakpoi
//---------------------------------------------------------------------------------------
// Do policy to determine if we should attach a debugger.
-//
+//
// Arguments:
// fIsUserBreakpoint - true iff this is in response to a user-breakpoint, else false.
//
@@ -8904,7 +8947,7 @@ Debugger::ATTACH_ACTION Debugger::ShouldAttachDebugger(bool fIsUserBreakpoint)
// This lock is also part of the above workaround.
// Must go to preemptive to take this lock since we'll trigger down the road.
- GCX_PREEMP();
+ GCX_PREEMP();
DebuggerLockHolder lockHolder(this);
// We always want to ask about user breakpoints!
@@ -8916,7 +8959,7 @@ Debugger::ATTACH_ACTION Debugger::ShouldAttachDebugger(bool fIsUserBreakpoint)
// While we could theoretically run into a deadlock if another thread
// which acquires the debugger lock in cooperative GC mode is blocked
// on this thread while it is running arbitrary user code out of the
- // MessageBox message pump, given that this codepath will only be used
+ // MessageBox message pump, given that this codepath will only be used
// on Win9x and that the chances of this happenning are quite slim,
// for Whidbey a GCViolation is acceptable.
CONTRACT_VIOLATION(GCViolation);
@@ -8957,7 +9000,7 @@ Debugger::ATTACH_ACTION Debugger::ShouldAttachDebugger(bool fIsUserBreakpoint)
//
// This may trigger a Jit attach.
// If the debugger is already attached, this will issue a step-out so that the UserBreakpoint
-// appears to come from the callsite.
+// appears to come from the callsite.
void Debugger::SendUserBreakpoint(Thread * thread)
{
CONTRACTL
@@ -9012,12 +9055,12 @@ void Debugger::SendUserBreakpoint(Thread * thread)
ATTACH_ACTION dbgAction = ShouldAttachDebugger(true);
// No debugger is attached. Consider a JIT attach.
- // This will do ShouldAttachDebugger() and wait for the results.
- // - It may terminate if the user requested that.
- // - It may do a full jit-attach.
+ // This will do ShouldAttachDebugger() and wait for the results.
+ // - It may terminate if the user requested that.
+ // - It may do a full jit-attach.
if (dbgAction == ATTACH_YES)
{
- JitAttach(thread, NULL, TRUE, FALSE);
+ JitAttach(thread, NULL, TRUE, FALSE);
}
else if (dbgAction == ATTACH_TERMINATE)
{
@@ -9032,11 +9075,11 @@ void Debugger::SendUserBreakpoint(Thread * thread)
{
_ASSERTE(dbgAction == ATTACH_NO);
}
-
+
if (CORDebuggerAttached())
{
- // On jit-attach, we just send the UserBreak event. Don't do an extra step-out.
- SendUserBreakpointAndSynchronize(thread);
+ // On jit-attach, we just send the UserBreak event. Don't do an extra step-out.
+ SendUserBreakpointAndSynchronize(thread);
}
else if (IsDebuggerPresent())
{
@@ -9077,7 +9120,7 @@ void Debugger::ThreadCreated(Thread* pRuntimeThread)
// Sanity check the thread.
_ASSERTE(pRuntimeThread != NULL);
_ASSERTE(pRuntimeThread->GetThreadId() != 0);
-
+
// Create a thread starter and enable its WillEnterManaged code
// callback. This will cause the starter to trigger once the
@@ -9202,7 +9245,7 @@ void Debugger::DetachThread(Thread *pRuntimeThread)
{
// Send a detach thread event to the Right Side.
DebuggerIPCEvent * pEvent = m_pRCThread->GetIPCEventSendBuffer();
-
+
InitIPCEvent(pEvent,
DB_IPCE_THREAD_DETACH,
pRuntimeThread,
@@ -9468,7 +9511,7 @@ void Debugger::LoadAssembly(DomainAssembly * pDomainAssembly)
Thread *pThread = g_pEEInterface->GetThread();
SENDIPCEVENT_BEGIN(this, pThread)
-
+
if (CORDebuggerAttached())
{
// Send a load assembly event to the Right Side.
@@ -9570,15 +9613,15 @@ void Debugger::LoadModule(Module* pRuntimeModule,
if (CORDBUnrecoverableError(this))
return;
- // If this is a dynamic module, then it's part of a multi-module assembly. The manifest
- // module within the assembly contains metadata for all the module names in the assembly.
+ // If this is a dynamic module, then it's part of a multi-module assembly. The manifest
+ // module within the assembly contains metadata for all the module names in the assembly.
// When a new dynamic module is created, the manifest module's metadata is updated to
- // include the new module (see code:Assembly.CreateDynamicModule).
- // So we need to update the RS's copy of the metadata. One place the manifest module's
+ // include the new module (see code:Assembly.CreateDynamicModule).
+ // So we need to update the RS's copy of the metadata. One place the manifest module's
// metadata gets used is in code:DacDbiInterfaceImpl.GetModuleSimpleName
- //
+ //
// See code:ReflectionModule.CaptureModuleMetaDataToMemory for why we send the metadata-refresh here.
- if (pRuntimeModule->IsReflection() && !pRuntimeModule->IsManifest() && !fAttaching)
+ if (pRuntimeModule->IsReflection() && !pRuntimeModule->IsManifest() && !fAttaching)
{
HRESULT hr = S_OK;
EX_TRY
@@ -9597,12 +9640,12 @@ void Debugger::LoadModule(Module* pRuntimeModule,
// Raise the debug event.
// This still tells the debugger that the manifest module metadata is invalid and needs to
- // be refreshed.
+ // be refreshed.
DebuggerIPCEvent eventMetadataUpdate;
InitIPCEvent(&eventMetadataUpdate, DB_IPCE_METADATA_UPDATE, NULL, pAppDomain);
eventMetadataUpdate.MetadataUpdateData.vmDomainFile.SetRawPtr(pManifestDomainFile);
-
+
SendRawEvent(&eventMetadataUpdate);
}
EX_CATCH_HRESULT(hr);
@@ -9655,7 +9698,7 @@ void Debugger::LoadModule(Module* pRuntimeModule,
{
TrapAllRuntimeThreads();
}
- EX_CATCH_HRESULT(hr); // @dbgtodo synchronization - catch exception and go on to restore state.
+ EX_CATCH_HRESULT(hr); // @dbgtodo synchronization - catch exception and go on to restore state.
// Synchronization feature crew needs to figure out what happens to TrapAllRuntimeThreads().
}
@@ -9673,7 +9716,7 @@ void Debugger::LoadModule(Module* pRuntimeModule,
{
SendUpdateModuleSymsEventAndBlock(pRuntimeModule, pAppDomain);
}
- EX_CATCH_HRESULT(hr);
+ EX_CATCH_HRESULT(hr);
}
// Now that we're done with the load module event, can no longer change Jit flags.
@@ -9810,7 +9853,7 @@ void Debugger::LoadModuleFinished(Module * pRuntimeModule, AppDomain * pAppDomai
// Notes:
// This is just a ping event. Debugger must query for actual symbol contents.
// This keeps the launch + attach cases identical.
-// This just sends the raw event and does not synchronize the runtime.
+// This just sends the raw event and does not synchronize the runtime.
// Use code:Debugger.SendUpdateModuleSymsEventAndBlock for that.
void Debugger::SendRawUpdateModuleSymsEvent(Module *pRuntimeModule, AppDomain *pAppDomain)
{
@@ -9832,7 +9875,7 @@ void Debugger::SendRawUpdateModuleSymsEvent(Module *pRuntimeModule, AppDomain *p
if (CORDBUnrecoverableError(this))
return;
- // This event is used to trigger the ICorDebugManagedCallback::UpdateModuleSymbols
+ // This event is used to trigger the ICorDebugManagedCallback::UpdateModuleSymbols
// callback. That callback is defined to pass a PDB stream, and so we still use this
// only for legacy compatibility reasons when we've actually got PDB symbols.
// New clients know they must request a new symbol reader after ClassLoad events.
@@ -9844,8 +9887,8 @@ void Debugger::SendRawUpdateModuleSymsEvent(Module *pRuntimeModule, AppDomain *p
DebuggerIPCEvent* ipce = NULL;
ipce = m_pRCThread->GetIPCEventSendBuffer();
- InitIPCEvent(ipce, DB_IPCE_UPDATE_MODULE_SYMS,
- g_pEEInterface->GetThread(),
+ InitIPCEvent(ipce, DB_IPCE_UPDATE_MODULE_SYMS,
+ g_pEEInterface->GetThread(),
pAppDomain);
ipce->UpdateModuleSymsData.vmDomainFile.SetRawPtr((module ? module->GetDomainFile() : NULL));
@@ -9856,17 +9899,17 @@ void Debugger::SendRawUpdateModuleSymsEvent(Module *pRuntimeModule, AppDomain *p
//
// UpdateModuleSyms is called when the symbols for a module need to be
// sent to the Right Side because they've changed.
-//
+//
// Arguments:
// pRuntimeModule - required, module to send symbols for. May be domain neutral.
// pAppDomain - required, appdomain that module is in.
-//
-//
-// Notes:
+//
+//
+// Notes:
// This will send the event (via code:Debugger.SendRawUpdateModuleSymsEvent) and then synchronize
// the runtime waiting for a continue.
-//
-// This should only be called in cases where we reasonably expect to send symbols.
+//
+// This should only be called in cases where we reasonably expect to send symbols.
// However, this may not send symbols if the symbols aren't available.
void Debugger::SendUpdateModuleSymsEventAndBlock(Module* pRuntimeModule, AppDomain *pAppDomain)
{
@@ -9897,7 +9940,7 @@ void Debugger::SendUpdateModuleSymsEventAndBlock(Module* pRuntimeModule, AppDoma
// Actually send the event
if (CORDebuggerAttached())
{
- SendRawUpdateModuleSymsEvent(pRuntimeModule, pAppDomain);
+ SendRawUpdateModuleSymsEvent(pRuntimeModule, pAppDomain);
TrapAllRuntimeThreads();
}
@@ -9909,7 +9952,7 @@ void Debugger::SendUpdateModuleSymsEventAndBlock(Module* pRuntimeModule, AppDoma
// UnloadModule is called by the Runtime for each module (including shared ones)
// in an AppDomain that is being unloaded, when a debugger is attached.
// In the EE, a module may be domain-neutral and therefore shared across all AppDomains.
-// We abstract this detail away in the Debugger and consider each such EE module to correspond
+// We abstract this detail away in the Debugger and consider each such EE module to correspond
// to multiple "Debugger Module" instances (one per AppDomain).
// Therefore, this doesn't necessarily mean the runtime is unloading the module, just
// that the Debugger should consider it's (per-AppDomain) DebuggerModule to be unloaded.
@@ -9957,7 +10000,7 @@ void Debugger::UnloadModule(Module* pRuntimeModule,
pRuntimeModule, pAppDomain, pRuntimeModule->IsIStream());
// Note: the appdomain the module was loaded in must match the appdomain we're unloading it from. If it doesn't,
- // then we've either found the wrong DebuggerModule in LookupModule or we were passed bad data.
+ // then we've either found the wrong DebuggerModule in LookupModule or we were passed bad data.
_ASSERTE(module->GetAppDomain() == pAppDomain);
// Send the unload module event to the Right Side.
@@ -10006,7 +10049,7 @@ void Debugger::UnloadModule(Module* pRuntimeModule,
}
LOG((LF_CORDB, LL_EVERYTHING, "Done clearing JMC methods!\n"));
}
-
+
// Delete the Left Side representation of the module.
if (m_pModules != NULL)
{
@@ -10026,12 +10069,12 @@ LExit:
SENDIPCEVENT_END;
}
-// Called when this module is completely gone from ALL AppDomains, regardless of
-// whether a debugger is attached.
-// Note that this doesn't get called until after the ADUnload is complete, which happens
+// Called when this module is completely gone from ALL AppDomains, regardless of
+// whether a debugger is attached.
+// Note that this doesn't get called until after the ADUnload is complete, which happens
// asyncronously in Whidbey (and won't happen at all if the process shuts down first).
// This is normally not called only domain-neutral assemblies because they can't be unloaded.
-// However, it may be called if the loader fails to completely load a domain-neutral assembly.
+// However, it may be called if the loader fails to completely load a domain-neutral assembly.
void Debugger::DestructModule(Module *pModule)
{
CONTRACTL
@@ -10051,7 +10094,7 @@ void Debugger::DestructModule(Module *pModule)
DebuggerLockHolder dbgLockHolder(this);
// We should have removed all patches at AD unload time (or detach time if the
- // debugger detached).
+ // debugger detached).
_ASSERTE( !DebuggerController::ModuleHasPatches(pModule) );
// Do module clean-up that applies even when no debugger is attached.
@@ -10098,7 +10141,7 @@ void Debugger::RemoveModuleReferences( Module* pModule )
// DebuggerDataLockHolder out of scope - release implied
}
- }
+ }
}
//---------------------------------------------------------------------------------------
@@ -10106,7 +10149,7 @@ void Debugger::RemoveModuleReferences( Module* pModule )
// SendClassLoadUnloadEvent - notify the RS of a class either loading or unloading.
//
// Arguments:
-//
+//
// fAttaching - true if a debugger is in the process of attaching
//
// Return Value:
@@ -10131,9 +10174,9 @@ void Debugger::SendClassLoadUnloadEvent (mdTypeDef classMetadataToken,
classMetadataToken, fIsLoadEvent, pClassDebuggerModule, pAppDomain));
DebuggerIPCEvent * pEvent = m_pRCThread->GetIPCEventSendBuffer();
-
+
BOOL fIsReflection = pClassDebuggerModule->GetRuntimeModule()->IsReflection();
-
+
if (fIsLoadEvent == TRUE)
{
// We need to update Metadata before Symbols (since symbols depend on metadata)
@@ -10263,10 +10306,10 @@ BOOL Debugger::LoadClass(TypeHandle th,
return FALSE;
// Note that pAppDomain may be null. The AppDomain isn't used here, and doesn't make a lot of sense since
- // we may be delivering the notification for a class in an assembly which is loaded into multiple AppDomains. We
- // handle this in SendSystemClassLoadUnloadEvent below by looping through all AppDomains and dispatching
+ // we may be delivering the notification for a class in an assembly which is loaded into multiple AppDomains. We
+ // handle this in SendSystemClassLoadUnloadEvent below by looping through all AppDomains and dispatching
// events for each that contain this assembly.
-
+
LOG((LF_CORDB, LL_INFO10000, "D::LC: load class Tok:%#08x Mod:%#08x AD:%#08x classMod:%#08x modName:%ls\n",
classMetadataToken, (pAppDomain == NULL) ? NULL : LookupOrCreateModule(classModule, pAppDomain),
pAppDomain, classModule, classModule->GetDebugName()));
@@ -10383,20 +10426,20 @@ void Debugger::FuncEvalComplete(Thread* pThread, DebuggerEval *pDE)
if (pDE->m_rethrowAbortException)
{
pThread->SetThreadStateNC(Thread::TSNC_DebuggerReAbort);
- }
+ }
//
// Get the domain that the result is valid in. The RS will cache this in the ICorDebugValue
- // Note: it's possible that the AppDomain has (or is about to be) unloaded, which could lead to a
- // crash when we use the DebuggerModule. Ideally we'd only be using AppDomain IDs here.
+ // Note: it's possible that the AppDomain has (or is about to be) unloaded, which could lead to a
+ // crash when we use the DebuggerModule. Ideally we'd only be using AppDomain IDs here.
// We can't easily convert our ADID to an AppDomain* (SystemDomain::GetAppDomainFromId)
- // because we can't proove that that the AppDomain* would be valid (not unloaded).
+ // because we can't proove that that the AppDomain* would be valid (not unloaded).
//
AppDomain *pDomain = pThread->GetDomain();
AppDomain *pResultDomain = ((pDE->m_debuggerModule == NULL) ? pDomain : pDE->m_debuggerModule->GetAppDomain());
_ASSERTE( pResultDomain->GetId() == pDE->m_appDomainId );
-
+
// Send a func eval complete event to the Right Side.
DebuggerIPCEvent* ipce = m_pRCThread->GetIPCEventSendBuffer();
InitIPCEvent(ipce, DB_IPCE_FUNC_EVAL_COMPLETE, pThread, pDomain);
@@ -10418,10 +10461,10 @@ void Debugger::FuncEvalComplete(Thread* pThread, DebuggerEval *pDE)
_ASSERTE(ipce->FuncEvalComplete.resultType.elementType != ELEMENT_TYPE_VALUETYPE);
// We must adjust the result address to point to the right place
- ipce->FuncEvalComplete.resultAddr = ArgSlotEndianessFixup((ARG_SLOT*)ipce->FuncEvalComplete.resultAddr,
+ ipce->FuncEvalComplete.resultAddr = ArgSlotEndianessFixup((ARG_SLOT*)ipce->FuncEvalComplete.resultAddr,
GetSizeForCorElementType(ipce->FuncEvalComplete.resultType.elementType));
- LOG((LF_CORDB, LL_INFO1000, "D::FEC: returned el %04x resultAddr %p\n",
+ LOG((LF_CORDB, LL_INFO1000, "D::FEC: returned el %04x resultAddr %p\n",
ipce->FuncEvalComplete.resultType.elementType, ipce->FuncEvalComplete.resultAddr));
m_pRCThread->SendIPCEvent();
@@ -10551,7 +10594,7 @@ BYTE* Debugger::SerializeModuleMetaData(Module * pModule, DWORD * countBytes)
ThrowHR(hr);
}
_ASSERTE(pInternalEmitter != NULL);
-
+
hr = pInternalEmitter->SetMDUpdateMode(MDUpdateExtension, &originalUpdateMode);
if(FAILED(hr))
{
@@ -10559,7 +10602,7 @@ BYTE* Debugger::SerializeModuleMetaData(Module * pModule, DWORD * countBytes)
ThrowHR(hr);
}
_ASSERTE(originalUpdateMode == MDUpdateFull);
-
+
hr = pEmitter->GetSaveSize(cssQuick, countBytes);
if(FAILED(hr))
{
@@ -10580,7 +10623,7 @@ BYTE* Debugger::SerializeModuleMetaData(Module * pModule, DWORD * countBytes)
}
EX_END_CATCH(SwallowAllExceptions);
_ASSERTE(metadataBuffer != NULL); // allocation would throw first
-
+
// Caller ensures serialization that guarantees that the metadata doesn't grow underneath us.
hr = pEmitter->SaveToMemory(metadataBuffer, *countBytes);
if(FAILED(hr))
@@ -10590,7 +10633,7 @@ BYTE* Debugger::SerializeModuleMetaData(Module * pModule, DWORD * countBytes)
pInternalEmitter->SetMDUpdateMode(originalUpdateMode, NULL);
ThrowHR(hr);
}
-
+
pInternalEmitter->SetMDUpdateMode(originalUpdateMode, NULL);
LOG((LF_CORDB, LL_INFO10000, "Debugger::SMMD exiting\n"));
return metadataBuffer;
@@ -10635,7 +10678,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
{
THROWS;
if (g_pEEInterface->GetThread() != NULL) { GC_TRIGGERS; } else { GC_NOTRIGGER; }
-
+
PRECONDITION(ThisIsHelperThreadWorker());
if (m_stopped)
@@ -10701,14 +10744,14 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
switch (pEvent->type & DB_IPCE_TYPE_MASK)
{
- case DB_IPCE_ATTACHING:
+ case DB_IPCE_ATTACHING:
// In V3, Attach is atomic, meaning that there isn't a complex handshake back and forth between LS + RS.
// the RS sends a single-attaching event and attaches at the first response from the Left-side.
StartCanaryThread();
-
+
// In V3 after attaching event was handled we iterate throughout all ADs and made shadow copies of PDBs in the BIN directories.
// After all AppDomain, DomainAssembly and modules iteration was available in out-of-proccess model in V4 the code that enables
- // PDBs to be copied was not called at attach time.
+ // PDBs to be copied was not called at attach time.
// Eliminating PDBs copying side effect is an issue: Dev10 #927143
EX_TRY
{
@@ -10717,12 +10760,12 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
EX_CATCH_HRESULT(hr); // ignore failures
if (m_jitAttachInProgress)
- {
- // For jit-attach, mark that we're attached now.
- // This lets callers to code:Debugger.JitAttach check the flag and
+ {
+ // For jit-attach, mark that we're attached now.
+ // This lets callers to code:Debugger.JitAttach check the flag and
// send the jit-attach event just like a normal event.
MarkDebuggerAttachedInternal();
-
+
// set the managed attach event so that waiting threads can continue
VERIFY(SetEvent(GetAttachEvent()));
break;
@@ -10764,7 +10807,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
case DB_IPCE_CONTINUE:
{
GetCanary()->ClearCache();
-
+
fContinue = ResumeThreads(pEvent->vmAppDomain.GetRawPtr());
//
@@ -10793,7 +10836,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
Module * pModule = pDebuggerModule->GetRuntimeModule();
DebuggerMethodInfo * pDMI = GetOrCreateMethodInfo(pModule, pEvent->BreakpointData.funcMetadataToken);
MethodDesc * pMethodDesc = pEvent->BreakpointData.nativeCodeMethodDescToken.UnWrap();
-
+
DebuggerJitInfo * pDJI = NULL;
if ((pMethodDesc != NULL) && (pDMI != NULL))
{
@@ -10832,14 +10875,14 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
}
LOG((LF_CORDB,LL_INFO10000,"\tBP Add: BPTOK:"
- "0x%x, tok=0x%08x, offset=0x%x, isIL=%d dm=0x%x m=0x%x\n",
+ "0x%x, tok=0x%08x, offset=0x%x, isIL=%d dm=0x%x m=0x%x\n",
pDebuggerBP,
pEvent->BreakpointData.funcMetadataToken,
pEvent->BreakpointData.offset,
pEvent->BreakpointData.isIL,
pDebuggerModule,
pModule));
-
+
//
// We're using a two-way event here, so we place the
// result event into the _receive_ buffer, not the send
@@ -10968,7 +11011,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
else
{
DebuggerStepper * pStepper;
-
+
if (pEvent->StepData.IsJMCStop)
{
pStepper = new (interopsafe, nothrow) DebuggerJMCStepper(pThread,
@@ -11035,8 +11078,8 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
CorDebugThreadState debugState = pEvent->SetAllDebugState.debugState;
LOG((LF_CORDB,LL_INFO10000,"HandleIPCE: SetAllDebugState: except thread 0x%08x (ID:0x%x) to state 0x%x\n",
- pThread,
- (pThread != NULL) ? GetThreadIdHelper(pThread) : 0,
+ pThread,
+ (pThread != NULL) ? GetThreadIdHelper(pThread) : 0,
debugState));
if (!g_fProcessDetach)
@@ -11130,13 +11173,13 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
DebuggerModule *pDebuggerModule = LookupOrCreateModule(pEvent->SetClassLoad.vmDomainFile);
_ASSERTE(pDebuggerModule != NULL);
-
+
LOG((LF_CORDB, LL_INFO10000,
"D::HIPCE: class load flag is %d for module 0x%p\n",
- pEvent->SetClassLoad.flag,
+ pEvent->SetClassLoad.flag,
pDebuggerModule));
- pDebuggerModule->EnableClassLoadCallbacks((BOOL)pEvent->SetClassLoad.flag);
+ pDebuggerModule->EnableClassLoadCallbacks((BOOL)pEvent->SetClassLoad.flag);
}
break;
@@ -11184,8 +11227,8 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
DebuggerJitInfo * pDJI = NULL;
if (pDMI != NULL)
{
- // In the EnC case, if we look for an older version, we need to find the DJI by starting
- // address, rather than just by MethodDesc. In the case of generics, we may need to create a DJI, so we
+ // In the EnC case, if we look for an older version, we need to find the DJI by starting
+ // address, rather than just by MethodDesc. In the case of generics, we may need to create a DJI, so we
pDJI = pDMI->FindOrCreateInitAndAddJitInfo(pEvent->SetIP.vmMethodDesc.GetRawPtr(),
PINSTRToPCODE((TADDR)pEvent->SetIP.startAddress));
}
@@ -11194,7 +11237,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
{
CHECK_IF_CAN_TAKE_HELPER_LOCKS_IN_THIS_SCOPE(&(pIPCResult->hr), GetCanary());
- if (SUCCEEDED(pIPCResult->hr))
+ if (SUCCEEDED(pIPCResult->hr))
{
pIPCResult->hr = SetIP(pEvent->SetIP.fCanSetIPOnly,
pThread,
@@ -11229,7 +11272,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
// Note that we'd like to be able to do this assert here
// _ASSERTE(DebuggerController::GetNumberOfPatches() == 0);
// However controllers may get queued for deletion if there is outstanding
- // work and so we can't gaurentee the deletion will complete now.
+ // work and so we can't gaurentee the deletion will complete now.
// @dbgtodo inspection: This shouldn't be an issue in the complete V3 architecture
MarkDebuggerUnattachedInternal();
@@ -11412,7 +11455,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
pEvent->CreateHandleResult.vmObjectHandle.SetRawPtr(objectHandle);
}
}
-
+
m_pRCThread->SendIPCReply();
break;
}
@@ -11486,7 +11529,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
case DB_IPCE_CONTROL_C_EVENT_RESULT:
{
- // store the result of whether the event has been handled by the debugger and
+ // store the result of whether the event has been handled by the debugger and
// wake up the thread waiting for the result
SetDebuggerHandlingCtrlC(pEvent->hr == S_OK);
VERIFY(SetEvent(GetCtrlCMutex()));
@@ -11626,7 +11669,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
Module * pModule = pEvent->MetadataUpdateRequest.vmModule.GetRawPtr();
LOG((LF_CORDB, LL_INFO100000, "D::HIPCE Got module 0x%x\n", pModule));
-
+
DWORD countBytes = 0;
// This will allocate memory. Debugger will then copy from here and send a
@@ -11636,7 +11679,7 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
{
LOG((LF_CORDB, LL_INFO100000, "D::HIPCE Calling SerializeModuleMetaData\n"));
pData = SerializeModuleMetaData(pModule, &countBytes);
-
+
}
EX_CATCH_HRESULT(hr);
@@ -11644,12 +11687,12 @@ bool Debugger::HandleIPCEvent(DebuggerIPCEvent * pEvent)
DebuggerIPCEvent * pResult = m_pRCThread->GetIPCEventReceiveBuffer();
InitIPCEvent(pResult, DB_IPCE_RESOLVE_UPDATE_METADATA_1_RESULT, NULL, NULL);
-
+
pResult->MetadataUpdateRequest.pMetadataStart = pData;
pResult->MetadataUpdateRequest.nMetadataSize = countBytes;
pResult->hr = hr;
LOG((LF_CORDB, LL_INFO1000000, "D::HIPCE metadataStart=0x%x, nMetadataSize=0x%x\n", pData, countBytes));
-
+
m_pRCThread->SendIPCReply();
LOG((LF_CORDB, LL_INFO1000000, "D::HIPCE reply sent\n"));
}
@@ -11739,18 +11782,18 @@ HRESULT Debugger::GetAndSendInterceptCommand(DebuggerIPCEvent *event)
{
//
// If the target frame is below the point where the current exception was
- // thrown from, then we should reject this interception command. This
+ // thrown from, then we should reject this interception command. This
// can happen in a func-eval during an exception callback, or during a
// breakpoint in a filter function. Or it can just be a user error.
//
CONTEXT* pContext = pExState->GetContextRecord();
- // This is an approximation on IA64, where we should use the caller SP instead of
- // the current SP. However, if the targetFramePointer is valid, the comparison should
- // still work. targetFramePointer should be valid because it ultimately comes from a
+ // This is an approximation on IA64, where we should use the caller SP instead of
+ // the current SP. However, if the targetFramePointer is valid, the comparison should
+ // still work. targetFramePointer should be valid because it ultimately comes from a
// full stackwalk.
FramePointer excepFramePointer = FramePointer::MakeFramePointer(GetSP(pContext));
-
+
if (IsCloserToRoot(excepFramePointer, targetFramePointer))
{
hr = CORDBG_E_CURRENT_EXCEPTION_IS_OUTSIDE_CURRENT_EXECUTION_SCOPE;
@@ -11767,7 +11810,7 @@ HRESULT Debugger::GetAndSendInterceptCommand(DebuggerIPCEvent *event)
//
if (pExState->GetContextRecord() != NULL)
{
- // If the faulting instruction is not in managed code, then the interception frame
+ // If the faulting instruction is not in managed code, then the interception frame
// must be non-leaf.
if (!g_pEEInterface->IsManagedNativeCode((BYTE *)(GetIP(pExState->GetContextRecord()))))
{
@@ -11802,7 +11845,7 @@ HRESULT Debugger::GetAndSendInterceptCommand(DebuggerIPCEvent *event)
#if defined(WIN64EXCEPTIONS)
int funcletIndex = PARENT_METHOD_INDEX;
- // For funclets, we need to make sure that the stack empty sequence point we use is
+ // For funclets, we need to make sure that the stack empty sequence point we use is
// in the same funclet as the current offset.
if (csi.m_activeFrame.IsFuncletFrame())
{
@@ -12073,10 +12116,10 @@ void Debugger::TypeHandleToBasicTypeInfo(AppDomain *pAppDomain, TypeHandle th, D
case ELEMENT_TYPE_CLASS:
case ELEMENT_TYPE_VALUETYPE:
{
- res->vmTypeHandle = th.HasInstantiation() ? WrapTypeHandle(th) : VMPTR_TypeHandle::NullPtr();
+ res->vmTypeHandle = th.HasInstantiation() ? WrapTypeHandle(th) : VMPTR_TypeHandle::NullPtr();
// only set if instantiated
res->metadataToken = th.GetCl();
- DebuggerModule * pDModule = LookupOrCreateModule(th.GetModule(), pAppDomain);
+ DebuggerModule * pDModule = LookupOrCreateModule(th.GetModule(), pAppDomain);
res->vmDomainFile.SetRawPtr((pDModule ? pDModule->GetDomainFile() : NULL));
break;
}
@@ -12127,8 +12170,8 @@ void Debugger::TypeHandleToExpandedTypeInfo(AreValueTypesBoxed boxed,
case ELEMENT_TYPE_SZARRAY:
_ASSERTE(th.IsArray());
res->ArrayTypeData.arrayRank = th.AsArray()->GetRank();
- TypeHandleToBasicTypeInfo(pAppDomain,
- th.AsArray()->GetArrayElementTypeHandle(),
+ TypeHandleToBasicTypeInfo(pAppDomain,
+ th.AsArray()->GetArrayElementTypeHandle(),
&(res->ArrayTypeData.arrayTypeArg));
break;
@@ -12140,8 +12183,8 @@ void Debugger::TypeHandleToExpandedTypeInfo(AreValueTypesBoxed boxed,
goto treatAllValuesAsBoxed;
}
_ASSERTE(th.IsTypeDesc());
- TypeHandleToBasicTypeInfo(pAppDomain,
- th.AsTypeDesc()->GetTypeParam(),
+ TypeHandleToBasicTypeInfo(pAppDomain,
+ th.AsTypeDesc()->GetTypeParam(),
&(res->UnaryTypeData.unaryTypeArg));
break;
@@ -12230,7 +12273,7 @@ HRESULT Debugger::BasicTypeInfoToTypeHandle(DebuggerIPCE_BasicTypeData *data, Ty
}
break;
}
-
+
case ELEMENT_TYPE_FNPTR:
{
_ASSERTE(!data->vmTypeHandle.IsNull());
@@ -12323,7 +12366,7 @@ TypeHandle Debugger::TypeDataWalk::ReadTypeHandle()
th = ReadInstantiation(pDebuggerModule->GetRuntimeModule(), data->data.ClassTypeData.metadataToken, data->numTypeArgs);
break;
}
-
+
case ELEMENT_TYPE_FNPTR:
{
SIZE_T cbAllocSize;
@@ -12439,7 +12482,7 @@ HRESULT Debugger::AllocateRemoteBuffer( ULONG bufSize, void **ppBuffer )
if (pBuffer == NULL)
{
return E_OUTOFMEMORY;
- }
+ }
// Track the allocation so we can free it later
void **ppNextBlob = GetMemBlobs()->Append();
@@ -12522,7 +12565,7 @@ HRESULT Debugger::ReleaseRemoteBuffer(void *pBuffer, bool removeFromBlobList)
}
// We should have found a match. All buffers passed to ReleaseRemoteBuffer
- // should have been allocated with AllocateRemoteBuffer and not yet freed.
+ // should have been allocated with AllocateRemoteBuffer and not yet freed.
_ASSERTE( i < cBlobs );
}
@@ -12799,7 +12842,7 @@ void Debugger::GetVarInfo(MethodDesc * fd, // [IN] method of interest
//---------------------------------------------------------------------------------------
//
-// Apply an EnC edit to the CLR datastructures and send the result event to the
+// Apply an EnC edit to the CLR datastructures and send the result event to the
// debugger right-side.
//
// Arguments:
@@ -12816,7 +12859,7 @@ void Debugger::GetVarInfo(MethodDesc * fd, // [IN] method of interest
// Notes:
//
// This is just the first half of processing an EnC request (hot swapping). This updates
-// the metadata and other CLR data structures to reflect the edit, but does not directly
+// the metadata and other CLR data structures to reflect the edit, but does not directly
// affect code which is currently running. In order to achieve on-stack replacement
// (remap of running code), we mine all old methods with "EnC remap breakpoints"
// (instances of DebuggerEnCBreakpoint) at many sequence points. When one of those
@@ -12905,7 +12948,7 @@ private:
// is a valid Remap Breakpoint location (not in a special offset, must be empty stack, and not in a handler.
//
EnCSequencePointHelper::EnCSequencePointHelper(DebuggerJitInfo *pJitInfo)
- : m_pOffsetToHandlerInfo(NULL),
+ : m_pOffsetToHandlerInfo(NULL),
m_pJitInfo(pJitInfo)
{
CONTRACTL
@@ -12925,9 +12968,9 @@ EnCSequencePointHelper::EnCSequencePointHelper(DebuggerJitInfo *pJitInfo)
for (unsigned int i = 0; i < m_pJitInfo->GetSequenceMapCount(); i++)
{
// By default this slot is unused. We want the indexes in m_pOffsetToHandlerInfo
- // to correspond to the indexes of m_pJitInfo->GetSequenceMapCount, so we rely
+ // to correspond to the indexes of m_pJitInfo->GetSequenceMapCount, so we rely
// on a -1 offset to indicate that a DebuggerOffsetToHandlerInfo is unused.
- // However, it would be cleaner and permit a simpler API to the EE if we just
+ // However, it would be cleaner and permit a simpler API to the EE if we just
// had an array mapping the offsets instead.
m_pOffsetToHandlerInfo[i].offset = (SIZE_T) -1;
m_pOffsetToHandlerInfo[i].isInFilterOrHandler = FALSE;
@@ -12944,7 +12987,7 @@ EnCSequencePointHelper::EnCSequencePointHelper(DebuggerJitInfo *pJitInfo)
continue;
}
- // Skip duplicate sequence points
+ // Skip duplicate sequence points
if (i >=1 && offset == pJitInfo->GetSequenceMap()[i-1].nativeStartOffset)
{
LOG((LF_ENC, LL_INFO10000,
@@ -12966,7 +13009,7 @@ EnCSequencePointHelper::EnCSequencePointHelper(DebuggerJitInfo *pJitInfo)
continue;
}
- // So far this sequence point looks good, so store it's native offset so we can get
+ // So far this sequence point looks good, so store it's native offset so we can get
// EH information about it from the EE.
LOG((LF_ENC, LL_INFO10000,
"D::UF: possibly placing E&C breakpoint at offset "
@@ -13061,10 +13104,10 @@ HRESULT Debugger::UpdateFunction(MethodDesc* pMD, SIZE_T encVersion)
Module *pModule = g_pEEInterface->MethodDescGetModule(pMD);
_ASSERTE(pModule != NULL);
mdToken methodDef = pMD->GetMemberDef();
- SendEnCUpdateEvent(DB_IPCE_ENC_UPDATE_FUNCTION,
- pModule,
- methodDef,
- pMD->GetMethodTable()->GetCl(),
+ SendEnCUpdateEvent(DB_IPCE_ENC_UPDATE_FUNCTION,
+ pModule,
+ methodDef,
+ pMD->GetMethodTable()->GetCl(),
encVersion);
DebuggerMethodInfo *dmi = GetOrCreateMethodInfo(pModule, methodDef);
@@ -13129,8 +13172,8 @@ HRESULT Debugger::UpdateFunction(MethodDesc* pMD, SIZE_T encVersion)
DebuggerEnCBreakpoint *bp;
// Create and activate a new EnC remap breakpoint here in the old version of the method
- bp = new (interopsafe) DebuggerEnCBreakpoint( offset,
- pJitInfo,
+ bp = new (interopsafe) DebuggerEnCBreakpoint( offset,
+ pJitInfo,
DebuggerEnCBreakpoint::REMAP_PENDING,
(AppDomain *)pModule->GetDomain());
@@ -13185,8 +13228,8 @@ HRESULT Debugger::UpdateNotYetLoadedFunction(mdMethodDef token, Module * pModule
}
// Called to add a new function when the type has been loaded already.
-// This is effectively the same as above, except that we're given a
-// MethodDesc instead of a module and token.
+// This is effectively the same as above, except that we're given a
+// MethodDesc instead of a module and token.
// This should probably be merged into a single method since the caller
// should always have a module and token available in both cases.
HRESULT Debugger::AddFunction(MethodDesc* pMD, SIZE_T encVersion)
@@ -13201,7 +13244,7 @@ HRESULT Debugger::AddFunction(MethodDesc* pMD, SIZE_T encVersion)
}
CONTRACTL_END;
- DebuggerDataLockHolder debuggerDataLockHolder(this);
+ DebuggerDataLockHolder debuggerDataLockHolder(this);
LOG((LF_CORDB, LL_INFO10000, "D::AF: adding "
"%s::%s to version %d\n", pMD->m_pszDebugClassName, pMD->m_pszDebugMethodName, encVersion));
@@ -13212,10 +13255,10 @@ HRESULT Debugger::AddFunction(MethodDesc* pMD, SIZE_T encVersion)
mdToken methodDef = pMD->GetMemberDef();
// tell the RS that this function has been added so that it can create new CorDBFunction
- SendEnCUpdateEvent( DB_IPCE_ENC_ADD_FUNCTION,
- pModule,
- methodDef,
- pMD->GetMethodTable()->GetCl(),
+ SendEnCUpdateEvent( DB_IPCE_ENC_ADD_FUNCTION,
+ pModule,
+ methodDef,
+ pMD->GetMethodTable()->GetCl(),
encVersion);
DebuggerMethodInfo *dmi = CreateMethodInfo(pModule, methodDef);
@@ -13242,10 +13285,10 @@ HRESULT Debugger::AddField(FieldDesc* pFD, SIZE_T encVersion)
"%8.8d::%8.8d to version %d\n", pFD->GetApproxEnclosingMethodTable()->GetCl(), pFD->GetMemberDef(), encVersion));
// tell the RS that this field has been added so that it can update it's structures
- SendEnCUpdateEvent( DB_IPCE_ENC_ADD_FIELD,
- pFD->GetModule(),
- pFD->GetMemberDef(),
- pFD->GetApproxEnclosingMethodTable()->GetCl(),
+ SendEnCUpdateEvent( DB_IPCE_ENC_ADD_FIELD,
+ pFD->GetModule(),
+ pFD->GetMemberDef(),
+ pFD->GetApproxEnclosingMethodTable()->GetCl(),
encVersion);
return S_OK;
@@ -13292,14 +13335,14 @@ HRESULT Debugger::RemapComplete(MethodDesc* pMD, TADDR addr, SIZE_T nativeOffset
return E_OUTOFMEMORY;
}
_ASSERTE(pJitInfo->m_addrOfCode + nativeOffset == addr);
-
+
DebuggerEnCBreakpoint *bp;
// Create and activate a new REMAP_COMPLETE EnC breakpoint to let us know when
// the EE has completed the remap process.
// This will be deleted when the patch is hit.
- bp = new (interopsafe, nothrow) DebuggerEnCBreakpoint( nativeOffset,
- pJitInfo,
+ bp = new (interopsafe, nothrow) DebuggerEnCBreakpoint( nativeOffset,
+ pJitInfo,
DebuggerEnCBreakpoint::REMAP_COMPLETE,
(AppDomain *)pMD->GetModule()->GetDomain());
if (bp == NULL)
@@ -13313,7 +13356,7 @@ HRESULT Debugger::RemapComplete(MethodDesc* pMD, TADDR addr, SIZE_T nativeOffset
//-----------------------------------------------------------------------------
// Called by EnC stuff to map an IL offset to a native offset for the given
// method described by (pMD, nativeFnxStart).
-//
+//
// pMD - methoddesc for method being remapped
// ilOffset - incoming offset in old method to remap.
// nativeFnxStart - address of new function. This can be used to find the DJI
@@ -13346,7 +13389,7 @@ HRESULT Debugger::MapILInfoToCurrentNative(MethodDesc *pMD,
*nativeOffset = 0;
DebuggerJitInfo *djiTo = GetJitInfo( pMD, (const BYTE *)nativeFnxStart);
if (djiTo == NULL)
- {
+ {
_ASSERTE(!"No DJI in EnC case: should only happen on oom. Debugger doesn't support OOM.");
return E_FAIL;
}
@@ -13364,7 +13407,7 @@ HRESULT Debugger::MapILInfoToCurrentNative(MethodDesc *pMD,
//
// Arguments:
// pContext - context from which we were hijacked. Always non-null.
-// pRecord - exception record if hijacked from an exception event.
+// pRecord - exception record if hijacked from an exception event.
// Else null (if hijacked from a managed IP).
// reason - hijack reason. Use this to delegate to the proper hijack stub.
// pData - arbitrary data for the hijack to use. (eg, such as a DebuggerEval object)
@@ -13374,14 +13417,14 @@ HRESULT Debugger::MapILInfoToCurrentNative(MethodDesc *pMD,
//
// Assumptions:
// If hijacked at an exception event, the debugger must have cleared the exception.
-//
+//
// Notes:
// The debugger hijacked the thread to get us here via the DacDbi Hijack primitive.
// This is called from a hand coded asm stub.
//
void STDCALL ExceptionHijackWorker(
- CONTEXT * pContext,
- EXCEPTION_RECORD * pRecord,
+ CONTEXT * pContext,
+ EXCEPTION_RECORD * pRecord,
EHijackReason::EHijackReason reason,
void * pData)
{
@@ -13392,12 +13435,12 @@ void STDCALL ExceptionHijackWorker(
{
case EHijackReason::kUnhandledException:
STRESS_LOG0(LF_CORDB,LL_INFO10, "D::EHW: Calling g_pDebugger->UnhandledHijackWorker()\n");
- _ASSERTE(pData == NULL);
+ _ASSERTE(pData == NULL);
g_pDebugger->UnhandledHijackWorker(pContext, pRecord);
break;
#ifdef FEATURE_INTEROP_DEBUGGING
case EHijackReason::kM2UHandoff:
- _ASSERTE(pData == NULL);
+ _ASSERTE(pData == NULL);
g_pDebugger->M2UHandoffHijackWorker(pContext, pRecord);
break;
case EHijackReason::kFirstChanceSuspend:
@@ -13416,8 +13459,8 @@ void STDCALL ExceptionHijackWorker(
// Currently, no Hijack actually returns yet.
UNREACHABLE();
- // If we return to this point, then we'll restore ourselves.
- // We've got the context that we were hijacked from, so we should be able to just
+ // If we return to this point, then we'll restore ourselves.
+ // We've got the context that we were hijacked from, so we should be able to just
// call SetThreadContext on ourself to fix us.
}
@@ -13427,8 +13470,8 @@ void STDCALL ExceptionHijackWorker(
// ----------------------------------------------------------------------------
// EmptyPersonalityRoutine
//
-// Description:
-// This personality routine is used to work around a limitation of the OS unwinder when we return
+// Description:
+// This personality routine is used to work around a limitation of the OS unwinder when we return
// ExceptionCollidedUnwind.
// See code:ExceptionHijackPersonalityRoutine for more information.
//
@@ -13465,24 +13508,24 @@ EXCEPTION_DISPOSITION EmptyPersonalityRoutine(IN PEXCEPTION_RECORD pExcept
//
// Notes:
// We just need 1 personality routine for the tiny assembly hijack stub.
-// All the C++ code invoked by the stub is ok.
+// All the C++ code invoked by the stub is ok.
//
-// This needs to fetch the original context that this thread was hijacked from
+// This needs to fetch the original context that this thread was hijacked from
// (which the hijack pushed onto the stack) and pass that back to the OS. This lets
// ths OS unwind out of the hijack.
-//
+//
// This function should only be executed if an unhandled exception is intercepted by a managed debugger.
// Otherwise there should never be a 2nd pass exception dispatch crossing the hijack stub.
-//
+//
// The basic idea here is straightforward. The OS does an exception dispatch and hit our hijack stub.
// Since the hijack stub is not unwindable, we need a personality routine to restore the CONTEXT and
// tell the OS to continue the dispatch with that CONTEXT by returning ExceptionCollidedUnwind.
-//
-// However, empricially, the OS expects that when we return ExceptionCollidedUnwind, the function
-// represented by the CONTEXT has a personality routine. The OS will actually AV if we return a NULL
-// personality routine.
-//
-// On AMD64, we work around this by using an empty personality routine.
+//
+// However, empricially, the OS expects that when we return ExceptionCollidedUnwind, the function
+// represented by the CONTEXT has a personality routine. The OS will actually AV if we return a NULL
+// personality routine.
+//
+// On AMD64, we work around this by using an empty personality routine.
EXTERN_C EXCEPTION_DISPOSITION
ExceptionHijackPersonalityRoutine(IN PEXCEPTION_RECORD pExceptionRecord
@@ -13507,7 +13550,7 @@ ExceptionHijackPersonalityRoutine(IN PEXCEPTION_RECORD pExceptionRecord
// DacDbiInterfaceImpl::Hijack. This works because ExceptionHijack
// allocates exactly 4 stack slots.
pHijackContext = *reinterpret_cast<CONTEXT **>(pDispatcherContext->EstablisherFrame + 0x20);
-
+
// This copies pHijackContext into pDispatcherContext, which the OS can then
// use to walk the stack.
FixupDispatcherContext(pDispatcherContext, pHijackContext, pContextRecord, (PEXCEPTION_ROUTINE)EmptyPersonalityRoutine);
@@ -13534,21 +13577,21 @@ LONG InternalUnhandledExceptionFilter_Worker(EXCEPTION_POINTERS *pExceptionInfo)
// pRecord - exception record of the exception that this was hijacked at.
// pData - random data.
// Notes:
-// When under a native-debugger, the OS does not invoking the Unhandled Exception Filter (UEF).
+// When under a native-debugger, the OS does not invoking the Unhandled Exception Filter (UEF).
// It dispatches a 2nd-chance Exception event instead.
// However, the CLR's UEF does lots of useful work (like dispatching the 2nd-chance managed exception,
-// allowing func-eval on 2nd-chance, and allowing intercepting unhandled exceptions).
+// allowing func-eval on 2nd-chance, and allowing intercepting unhandled exceptions).
// So we'll emulate the OS behavior here by invoking the CLR's UEF directly.
//
void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRecord)
-{
+{
CONTRACTL
{
// The ultimate protection shield is that this hijack can be executed under the same circumstances
// as a top-level UEF that pinvokes into managed code
// - That means we're GC-triggers safe
// - that means that we can crawl the stack. (1st-pass EH logic ensures this).
- // We need to be GC-triggers because this may invoke a func-eval.
+ // We need to be GC-triggers because this may invoke a func-eval.
GC_TRIGGERS;
// Don't throw out of a hijack! There's nobody left to catch this.
@@ -13557,7 +13600,7 @@ void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRec
// We expect to always be in preemptive here by the time we get this unhandled notification.
// We know this is true because a native UEF is preemptive.
// More detail:
- // 1) If we got here from a software exception (eg, Throw from C#), then the jit helper
+ // 1) If we got here from a software exception (eg, Throw from C#), then the jit helper
// toggled us to preemptive before calling RaiseException().
// 2) If we got here from a hardware exception in managed code, then the 1st-pass already did
// some magic to get us into preemptive. On x86, this is magic. On 64-bit, it did some magic
@@ -13581,7 +13624,7 @@ void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRec
BOOL fSOException = FALSE;
- if ((pRecord != NULL) &&
+ if ((pRecord != NULL) &&
(pRecord->ExceptionCode == STATUS_STACK_OVERFLOW))
{
fSOException = TRUE;
@@ -13594,10 +13637,10 @@ void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRec
PostJitAttach();
// On Win7 WatsonLastChance returns CONTINUE_SEARCH for unhandled exceptions execpt stack overflow, and
- // lets OS launch debuggers for us. Before the unhandled exception reaches the OS, CLR UEF has already
+ // lets OS launch debuggers for us. Before the unhandled exception reaches the OS, CLR UEF has already
// processed this unhandled exception. Thus, we should not call into CLR UEF again if it is the case.
- if (pThread &&
- (pThread->HasThreadStateNC(Thread::TSNC_ProcessedUnhandledException) ||
+ if (pThread &&
+ (pThread->HasThreadStateNC(Thread::TSNC_ProcessedUnhandledException) ||
pThread->HasThreadStateNC(Thread::TSNC_AppDomainContainUnhandled) ||
fSOException))
{
@@ -13614,15 +13657,15 @@ void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRec
// exception. Our hijack code runs in the exception context, and overwrites the stack space
// after SO excpetion, so this frame was popped out before invoking RaiseFailFast. We need to
// put it back here for running func-eval code.
- // This cumbersome code should be removed once SO synchronization is moved to be completely
- // out-of-process.
+ // This cumbersome code should be removed once SO synchronization is moved to be completely
+ // out-of-process.
fef.InitAndLink(pContext);
}
STRESS_LOG0(LF_CORDB, LL_INFO10, "D::EHW: Calling NotifyDebuggerLastChance\n");
NotifyDebuggerLastChance(pThread, &exceptionInfo, TRUE);
- // Continuing from a second chance managed exception causes the process to exit.
+ // Continuing from a second chance managed exception causes the process to exit.
TerminateProcess(GetCurrentProcess(), 0);
}
@@ -13640,8 +13683,8 @@ void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRec
// If intercepted, then this never returns. It will manually invoke the unwinders and fix the context.
- // InternalUnhandledExceptionFilter_Worker has a throws contract, but should not be throwing in any
- // conditions we care about. This hijack should never throw, so catch everything.
+ // InternalUnhandledExceptionFilter_Worker has a throws contract, but should not be throwing in any
+ // conditions we care about. This hijack should never throw, so catch everything.
HRESULT hrIgnore;
EX_TRY
{
@@ -13649,7 +13692,7 @@ void Debugger::UnhandledHijackWorker(CONTEXT * pContext, EXCEPTION_RECORD * pRec
}
EX_CATCH_HRESULT(hrIgnore);
- // Continuing from a second chance managed exception causes the process to exit.
+ // Continuing from a second chance managed exception causes the process to exit.
TerminateProcess(GetCurrentProcess(), 0);
}
@@ -13692,7 +13735,7 @@ VOID Debugger::M2UHandoffHijackWorker(CONTEXT *pContext,
SO_NOT_MAINLINE_FUNCTION;
- LOG((LF_CORDB, LL_INFO1000, "D::M2UHHW: Context=0x%p exception record=0x%p\n",
+ LOG((LF_CORDB, LL_INFO1000, "D::M2UHHW: Context=0x%p exception record=0x%p\n",
pContext, pExceptionRecord));
// We should only be here for a BP
@@ -13747,7 +13790,7 @@ VOID Debugger::M2UHandoffHijackWorker(CONTEXT *pContext,
}
//-----------------------------------------------------------------------------
-// This hijack is run after receiving an IB event that we don't know how the
+// This hijack is run after receiving an IB event that we don't know how the
// debugger will want to continue. Under the covers we clear the event and divert
// execution here where we block until the debugger decides whether or not to clear
// the event. At that point we exit this hijack and the LS diverts execution back
@@ -13798,7 +13841,7 @@ LONG Debugger::FirstChanceSuspendHijackWorker(CONTEXT *pContext,
#endif
// This memory is used as IPC during the hijack. We will place a pointer to this in
- // the EE debugger word (a TLS slot that works even on the debugger break-in thread)
+ // the EE debugger word (a TLS slot that works even on the debugger break-in thread)
// and then the RS can write info into the memory.
DebuggerIPCFirstChanceData fcd;
@@ -13830,7 +13873,7 @@ LONG Debugger::FirstChanceSuspendHijackWorker(CONTEXT *pContext,
SPEW(fprintf(stderr, "0x%x D::FCHF: Signaling hijack started.\n", tid));
SignalHijackStarted();
SPEW(fprintf(stderr, "0x%x D::FCHF: Signaling hijack started complete. DebugCounter=0x%x\n", tid, pFcd->debugCounter));
-
+
if (pFcd->action == HIJACK_ACTION_WAIT)
{
// This exception does NOT belong to the CLR.
@@ -13902,7 +13945,7 @@ LONG Debugger::FirstChanceSuspendHijackWorker(CONTEXT *pContext,
_ASSERTE(pFcd->action == HIJACK_ACTION_EXIT_UNHANDLED);
return EXCEPTION_CONTINUE_SEARCH;
}
-}
+}
#if defined(_TARGET_X86_) || defined(_TARGET_AMD64_) || defined(_TARGET_ARM64_)
void GenericHijackFuncHelper()
@@ -14469,8 +14512,8 @@ void Debugger::SendMDANotification(
// - S_OK if we do a jit-attach,
// - S_FALSE if a debugger is already attached.
// - Error in other cases..
-
- JitAttach(pThread, NULL, TRUE, FALSE);
+
+ JitAttach(pThread, NULL, TRUE, FALSE);
}
// Debugger may be attached now...
@@ -14531,9 +14574,9 @@ void Debugger::SendLogMessage(int iLevel,
// Send Log message event to the Right Side
SendRawLogMessage(
- pThread,
- pAppDomain,
- iLevel,
+ pThread,
+ pAppDomain,
+ iLevel,
pSwitchName,
pMessage);
@@ -14556,7 +14599,7 @@ void Debugger::SendRawLogMessage(
AppDomain *pAppDomain,
int iLevel,
SString * pCategory,
- SString * pMessage
+ SString * pMessage
)
{
DebuggerIPCEvent* ipce;
@@ -14654,7 +14697,7 @@ void Debugger::SendLogSwitchSetting(int iLevel,
// input: pThread - thread on which the notification occurred
// pDomain - domain file for the domain in which the notification occurred
// classToken - metadata token for the type of the notification object
-void Debugger::SendCustomDebuggerNotification(Thread * pThread,
+void Debugger::SendCustomDebuggerNotification(Thread * pThread,
DomainFile * pDomain,
mdTypeDef classToken)
{
@@ -14691,7 +14734,7 @@ void Debugger::SendCustomDebuggerNotification(Thread * pThread,
ipce->CustomNotification.classToken = classToken;
ipce->CustomNotification.vmDomainFile = vmDomainFile;
-
+
m_pRCThread->SendIPCEvent();
// Stop all Runtime threads
@@ -14804,7 +14847,7 @@ LErrExit:
// UnLock the list
m_pAppDomainCB->Unlock();
- // Send event to debugger if one is attached.
+ // Send event to debugger if one is attached.
if (CORDebuggerAttached())
{
SendCreateAppDomainEvent(pAppDomain);
@@ -14816,7 +14859,7 @@ LErrExit:
/******************************************************************************
- * Remove the AppDomain from the list stored in the IPC block and send an ExitAppDomain
+ * Remove the AppDomain from the list stored in the IPC block and send an ExitAppDomain
* event to the debugger if attached.
******************************************************************************/
HRESULT Debugger::RemoveAppDomainFromIPC (AppDomain *pAppDomain)
@@ -15003,7 +15046,7 @@ HRESULT Debugger::IterateAppDomainsForPdbs()
CopyModulePdb(pDomainAssembly->GetModule());
}
}
-
+
// Get the next appdomain in the list
pADInfo = m_pAppDomainCB->FindNext(pADInfo);
}
@@ -15101,7 +15144,7 @@ HRESULT Debugger::InitAppDomainIPC(void)
dwStrLen = WszGetModuleFileName(NULL,
szExeName);
-
+
// If we couldn't get the name, then use a nice default.
if (dwStrLen == 0)
{
@@ -15194,7 +15237,7 @@ HRESULT Debugger::TerminateAppDomainIPC(void)
// We're done. release and close the mutex. Note that this must be done
// after we clear it out above to ensure there is no race condition.
- if( m != NULL )
+ if( m != NULL )
{
VERIFY(ReleaseMutex(m));
m.Close();
@@ -15336,7 +15379,7 @@ HRESULT Debugger::FuncEvalSetup(DebuggerIPCE_FuncEvalInfo *pEvalInfo,
//
// To prevent GCs until the func-eval gets a chance to run, we increment the counter here.
// We only need to do this if we have changed the filter CONTEXT, since the stack will be unwalkable
- // in this case.
+ // in this case.
//
g_pDebugger->IncThreadsAtUnsafePlaces();
}
@@ -15465,7 +15508,7 @@ Debugger::FuncEvalAbort(
DebuggerEval *pDE = (DebuggerEval*) debuggerEvalKey;
HRESULT hr = S_OK;
- CHECK_IF_CAN_TAKE_HELPER_LOCKS_IN_THIS_SCOPE(&hr, GetCanary());
+ CHECK_IF_CAN_TAKE_HELPER_LOCKS_IN_THIS_SCOPE(&hr, GetCanary());
if (FAILED(hr))
{
return hr;
@@ -15527,7 +15570,7 @@ Debugger::FuncEvalRudeAbort(
CONTRACTL_END;
HRESULT hr = S_OK;
- CHECK_IF_CAN_TAKE_HELPER_LOCKS_IN_THIS_SCOPE(&hr, GetCanary());
+ CHECK_IF_CAN_TAKE_HELPER_LOCKS_IN_THIS_SCOPE(&hr, GetCanary());
if (FAILED(hr))
{
return hr;
@@ -15535,7 +15578,7 @@ Debugger::FuncEvalRudeAbort(
DebuggerEval *pDE = debuggerEvalKey;
-
+
if (!(pDE->m_aborting & DebuggerEval::FE_ABORT_RUDE))
{
@@ -15917,15 +15960,15 @@ void Debugger::DoHelperThreadDuty()
// This function is called from the EE to notify the right side
// whenever the name of a thread or AppDomain changes
-//
+//
// Notes:
// This just sends a ping event to notify that the name has been changed.
// It does not send the actual updated name. Instead, the debugger can query for the name.
-//
+//
// For an AppDomain name change:
// - pAppDoamin != NULL
// - name retrieved via ICorDebugAppDomain::GetName
-//
+//
// For a Thread name change:
// - pAppDomain == NULL, pThread != NULL
// - name retrieved via a func-eval of Thread::get_Name
@@ -15947,8 +15990,8 @@ HRESULT Debugger::NameChangeEvent(AppDomain *pAppDomain, Thread *pThread)
if (g_pEEInterface->GetThread() == NULL)
return S_OK;
- // Skip if thread doesn't yet have native ID.
- // This can easily happen if an app sets Thread.Name before it calls Thread.Start.
+ // Skip if thread doesn't yet have native ID.
+ // This can easily happen if an app sets Thread.Name before it calls Thread.Start.
// Since this is just a ping-event, it's ignorable. The debugger can query the thread name at Thread.Start in this case.
// This emulates whidbey semantics.
if (pThread != NULL)
@@ -15982,7 +16025,7 @@ HRESULT Debugger::NameChangeEvent(AppDomain *pAppDomain, Thread *pThread)
}
else
{
- // Thread Name
+ // Thread Name
ipce->NameChange.eventType = THREAD_NAME_CHANGE;
_ASSERTE (pThread);
ipce->NameChange.vmThread.SetRawPtr(pThread);
@@ -16177,8 +16220,8 @@ BOOL Debugger::IsThreadContextInvalid(Thread *pThread)
}
EX_END_CATCH(SwallowAllExceptions);
#else // _TARGET_X86_
- // Non-x86 can detect whether the thread is suspended after an exception is hit but before
- // the kernel has dispatched the exception to user mode by trap frame reporting.
+ // Non-x86 can detect whether the thread is suspended after an exception is hit but before
+ // the kernel has dispatched the exception to user mode by trap frame reporting.
// See Thread::IsContextSafeToRedirect().
#endif // _TARGET_X86_
}
@@ -16454,15 +16497,15 @@ void Debugger::ReleaseDebuggerDataLock(Debugger *pDebugger)
#else // DACCESS_COMPILE
// determine whether the LS holds the data lock. If it does, we will assume the locked data is in an
-// inconsistent state and will throw an exception. The DAC will execute this if we are executing code
-// that takes the lock.
+// inconsistent state and will throw an exception. The DAC will execute this if we are executing code
+// that takes the lock.
// Arguments: input: pDebugger - the LS debugger data structure
/* static */
void Debugger::AcquireDebuggerDataLock(Debugger *pDebugger)
{
SUPPORTS_DAC;
- if (pDebugger->GetDebuggerDataLock()->GetEnterCount() != 0)
+ if (pDebugger->GetDebuggerDataLock()->GetEnterCount() != 0)
{
ThrowHR(CORDBG_E_PROCESS_NOT_SYNCHRONIZED);
}
@@ -16689,7 +16732,7 @@ HRESULT DebuggerHeap::Init(BOOL fExecutable)
m_fExecutable = fExecutable;
#ifdef USE_INTEROPSAFE_HEAP
- // If already inited, then we're done.
+ // If already inited, then we're done.
// We normally don't double-init. However, we may oom between when we allocate the heap and when we do other initialization.
// We don't worry about backout code to free the heap. Rather, we'll just leave it alive and nop if we try to allocate it again.
if (IsInit())
@@ -16946,7 +16989,7 @@ int Debugger::MessageBox(
UINT uText, // Resource Identifier for Text message
UINT uCaption, // Resource Identifier for Caption
UINT uType, // Style of MessageBox
- BOOL displayForNonInteractive, // Display even if the process is running non interactive
+ BOOL displayForNonInteractive, // Display even if the process is running non interactive
BOOL showFileNameInTitle, // Flag to show FileName in Caption
...) // Additional Arguments
{
@@ -17032,7 +17075,7 @@ void Debugger::StartCanaryThread()
{
// we need to already have the rcthread running and the pointer stored
_ASSERTE(m_pRCThread != NULL && g_pRCThread == m_pRCThread);
- _ASSERTE(m_pRCThread->GetDCB() != NULL);
+ _ASSERTE(m_pRCThread->GetDCB() != NULL);
_ASSERTE(GetCanary() != NULL);
GetCanary()->Init();
diff --git a/src/debug/ee/debugger.h b/src/debug/ee/debugger.h
index 0b1cbacc69..97f9832a02 100644
--- a/src/debug/ee/debugger.h
+++ b/src/debug/ee/debugger.h
@@ -126,7 +126,7 @@ public:
// Clear the holder.
~AtSafePlaceHolder();
- // True if the holder is acquired.
+ // True if the holder is acquired.
bool IsAtUnsafePlace();
// Clear the holder (call DecThreadsAtUnsafePlaces if needed)
@@ -148,12 +148,12 @@ public:
};
#ifndef DACCESS_COMPILE
-template<BOOL TOGGLE, BOOL IFTHREAD>
+template<BOOL TOGGLE, BOOL IFTHREAD>
class GCHolderEEInterface<TRUE, TOGGLE, IFTHREAD>
{
private:
bool startInCoop;
-
+
public:
DEBUG_NOINLINE GCHolderEEInterface()
{
@@ -173,8 +173,8 @@ public:
startInCoop = true;
}
else
- {
- // we're starting in PREEMP, need to switch to COOP
+ {
+ // we're starting in PREEMP, need to switch to COOP
startInCoop = false;
g_pEEInterface->DisablePreemptiveGC();
}
@@ -193,7 +193,7 @@ public:
if (TOGGLE)
{
- // We're in COOP, toggle to PREEMPTIVE and back to COOP
+ // We're in COOP, toggle to PREEMPTIVE and back to COOP
// for synch purposes.
g_pEEInterface->EnablePreemptiveGC();
g_pEEInterface->DisablePreemptiveGC();
@@ -206,7 +206,7 @@ public:
}
else
{
- // If we started in PREEMPTIVE switch back
+ // If we started in PREEMPTIVE switch back
if (!startInCoop)
{
g_pEEInterface->EnablePreemptiveGC();
@@ -215,13 +215,13 @@ public:
};
};
-template<BOOL TOGGLE, BOOL IFTHREAD>
+template<BOOL TOGGLE, BOOL IFTHREAD>
class GCHolderEEInterface<FALSE, TOGGLE, IFTHREAD>
{
private:
bool startInCoop;
bool conditional;
-
+
void EnterInternal(bool bStartInCoop, bool bConditional)
{
startInCoop = bStartInCoop;
@@ -262,8 +262,8 @@ private:
// If we started in PREEMPTIVE switch back to PREEMPTIVE
if (!startInCoop)
{
- g_pEEInterface->EnablePreemptiveGC();
- }
+ g_pEEInterface->EnablePreemptiveGC();
+ }
}
else
{
@@ -307,7 +307,7 @@ public:
#define GCX_COOP_EEINTERFACE() \
GCHolderEEInterface<TRUE, FALSE, FALSE> __gcCoop_onlyOneAllowedPerScope
-
+
#define GCX_PREEMP_EEINTERFACE() \
GCHolderEEInterface<FALSE, FALSE, FALSE> __gcCoop_onlyOneAllowedPerScope
@@ -474,8 +474,8 @@ CONTEXT * GetManagedLiveCtx(Thread * pThread);
// Once a module / appdomain is unloaded, all Right-side objects (such as breakpoints)
// in that appdomain will get neutered and will thus be prevented from accessing
-// the unloaded appdomain.
-//
+// the unloaded appdomain.
+//
// @dbgtodo jmc - This is now purely relegated to the LS. Eventually completely get rid of this
// by moving fields off to Module or getting rid of the fields completely.
typedef DPTR(class DebuggerModule) PTR_DebuggerModule;
@@ -520,9 +520,9 @@ class DebuggerModule
// workaround to facilitate the removal of DebuggerModule.
// </TODO>
DebuggerModule * GetPrimaryModule();
- DomainFile * GetDomainFile()
+ DomainFile * GetDomainFile()
{
- LIMITED_METHOD_DAC_CONTRACT;
+ LIMITED_METHOD_DAC_CONTRACT;
return m_pRuntimeDomainFile;
}
@@ -609,7 +609,7 @@ class HelperThreadFavor
HelperThreadFavor();
// No dtor because we intentionally leak all shutdown.
void Init();
-
+
protected:
// Stuff for having the helper thread do function calls for a thread
// that blew its stack
@@ -657,12 +657,12 @@ protected:
DebuggerPendingFuncEvalTable *m_pPendingEvals;
- // The "debugger data lock" is a very small leaf lock used to protect debugger internal data structures (such
+ // The "debugger data lock" is a very small leaf lock used to protect debugger internal data structures (such
// as DJIs, DMIs, module table). It is a GC-unsafe-anymode lock and so it can't trigger a GC while being held.
- // It also can't issue any callbacks into the EE or anycode that it does not directly control.
+ // It also can't issue any callbacks into the EE or anycode that it does not directly control.
// This is a separate lock from the the larger Debugger-lock / Controller lock, which allows regions under those
- // locks to access debugger datastructures w/o blocking each other.
- Crst m_DebuggerDataLock;
+ // locks to access debugger datastructures w/o blocking each other.
+ Crst m_DebuggerDataLock;
HANDLE m_CtrlCMutex;
HANDLE m_exAttachEvent;
HANDLE m_exUnmanagedAttachEvent;
@@ -671,7 +671,7 @@ protected:
// Used by MapAndBindFunctionBreakpoints. Note that this is thread-safe
// only b/c we access it from within the DebuggerController::Lock
- SIZE_T_UNORDERED_ARRAY m_BPMappingDuplicates;
+ SIZE_T_UNORDERED_ARRAY m_BPMappingDuplicates;
UnorderedPtrArray m_pMemBlobs;
@@ -813,7 +813,7 @@ public:
void RightSideDetach(void);
//
- //
+ //
//
void ThreadProc(void);
static DWORD WINAPI ThreadProcStatic(LPVOID parameter);
@@ -857,9 +857,9 @@ private:
FAVORCALLBACK GetFavorFnPtr() { return m_favorData.m_fpFavor; }
void * GetFavorData() { return m_favorData.m_pFavorData; }
- void SetFavorFnPtr(FAVORCALLBACK fp, void * pData)
- {
- m_favorData.m_fpFavor = fp;
+ void SetFavorFnPtr(FAVORCALLBACK fp, void * pData)
+ {
+ m_favorData.m_fpFavor = fp;
m_favorData.m_pFavorData = pData;
}
Crst * GetFavorLock() { return &m_favorData.m_FavorLock; }
@@ -867,8 +867,8 @@ private:
HANDLE GetFavorReadEvent() { return m_favorData.m_FavorReadEvent; }
HANDLE GetFavorAvailableEvent() { return m_favorData.m_FavorAvailableEvent; }
- HelperThreadFavor m_favorData;
-
+ HelperThreadFavor m_favorData;
+
HelperCanary * GetCanary() { return &GetLazyData()->m_Canary; }
@@ -1038,7 +1038,7 @@ public:
bool HasInstrumentedILMap() {return m_fHasInstrumentedILMap; }
// TranslateToInstIL will take offOrig, and translate it to the
- // correct IL offset if this code happens to be instrumented
+ // correct IL offset if this code happens to be instrumented
ULONG32 TranslateToInstIL(const InstrumentedILOffsetMapping * pMapping, ULONG32 offOrig, bool fOrigToInst);
@@ -1135,7 +1135,7 @@ static_assert(sizeof(DebuggerHeapExecutableMemoryChunk) == 64, "DebuggerHeapExec
// We allocate the size of DebuggerHeapExecutableMemoryPage each time we need
// more memory and divide each page into DebuggerHeapExecutableMemoryChunks for
// use. The pages are self describing; the first chunk contains information
-// about which of the other chunks are used/free as well as a pointer to
+// about which of the other chunks are used/free as well as a pointer to
// the next page.
// ------------------------------------------------------------------------ */
struct DECLSPEC_ALIGN(4096) DebuggerHeapExecutableMemoryPage
@@ -1185,7 +1185,7 @@ private:
// ------------------------------------------------------------------------ */
// DebuggerHeapExecutableMemoryAllocator class
-// Handles allocation and freeing (and all necessary bookkeeping) for
+// Handles allocation and freeing (and all necessary bookkeeping) for
// executable memory that the DebuggerHeap class needs. This is especially
// useful on systems (like SELinux) where having executable code on the
// heap is explicity disallowed for security reasons.
@@ -1272,8 +1272,8 @@ public:
SUPPORTS_DAC;
}
- static CodeRegionInfo GetCodeRegionInfo(DebuggerJitInfo * dji,
- MethodDesc * md = NULL,
+ static CodeRegionInfo GetCodeRegionInfo(DebuggerJitInfo * dji,
+ MethodDesc * md = NULL,
PTR_CORDB_ADDRESS_TYPE addr = PTR_NULL);
// Fills in the CodeRegoinInfo fields from the start address.
@@ -1418,7 +1418,7 @@ class DebuggerJitInfo
public:
PTR_MethodDesc m_fd;
- // Loader module is used to control life-time of DebufferJitInfo. Ideally, we would refactor the code to use LoaderAllocator here
+ // Loader module is used to control life-time of DebufferJitInfo. Ideally, we would refactor the code to use LoaderAllocator here
// instead because of it is what the VM actually uses to track the life time. It would make the debugger interface less chatty.
PTR_Module m_pLoaderModule;
@@ -1454,7 +1454,7 @@ protected:
unsigned int m_varNativeInfoCount;
bool m_fAttemptInit;
-
+
#ifndef DACCESS_COMPILE
void LazyInitBounds();
#else
@@ -1478,15 +1478,15 @@ public:
LazyInitBounds();
return m_sequenceMap;
}
-
+
unsigned int GetCallsiteMapCount()
{
SUPPORTS_DAC;
-
+
LazyInitBounds();
return m_callsiteMapCount;
}
-
+
PTR_DebuggerILToNativeMap GetCallSiteMap()
{
SUPPORTS_DAC;
@@ -1643,7 +1643,7 @@ public:
};
#if !defined(DACCESS_COMPILE)
-// @dbgtodo Microsoft inspection: get rid of this class when IPC events are eliminated. It's been copied to
+// @dbgtodo Microsoft inspection: get rid of this class when IPC events are eliminated. It's been copied to
// dacdbistructures
/*
* class MapSortIL: A template class that will sort an array of DebuggerILToNativeMap.
@@ -1675,7 +1675,7 @@ class MapSortIL : public CQuickSort<DebuggerILToNativeMap>
DebuggerILToNativeMap *second)
{
LIMITED_METHOD_CONTRACT;
-
+
const DWORD call_inst = (DWORD)ICorDebugInfo::CALL_INSTRUCTION;
//PROLOGs go first
@@ -1804,7 +1804,7 @@ public:
#ifndef DACCESS_COMPILE
Debugger();
virtual ~Debugger();
-#else
+#else
virtual ~Debugger() {}
#endif
@@ -1870,7 +1870,7 @@ public:
UINT uText, // Resource Identifier for Text message
UINT uCaption, // Resource Identifier for Caption
UINT uType, // Style of MessageBox
- BOOL displayForNonInteractive, // Display even if the process is running non interactive
+ BOOL displayForNonInteractive, // Display even if the process is running non interactive
BOOL showFileNameInTitle, // Flag to show FileName in Caption
...); // Additional Arguments
@@ -1896,7 +1896,7 @@ public:
DWORD dwModuleName,
Assembly *pAssembly,
AppDomain *pAppDomain,
- DomainFile * pDomainFile,
+ DomainFile * pDomainFile,
BOOL fAttaching);
void LoadModuleFinished(Module* pRuntimeModule, AppDomain * pAppDomain);
DebuggerModule * AddDebuggerModule(DomainFile * pDomainFile);
@@ -2031,10 +2031,10 @@ public:
HRESULT GetILToNativeMappingIntoArrays(
MethodDesc * pMethodDesc,
- PCODE pCode,
- USHORT cMapMax,
+ PCODE pCode,
+ USHORT cMapMax,
USHORT * pcMap,
- UINT ** prguiILOffset,
+ UINT ** prguiILOffset,
UINT ** prguiNativeOffset);
PRD_TYPE GetPatchedOpcode(CORDB_ADDRESS_TYPE *ip);
@@ -2164,10 +2164,10 @@ public:
void LockAndSendEnCRemapEvent(DebuggerJitInfo * dji, SIZE_T currentIP, SIZE_T *resumeIP);
void LockAndSendEnCRemapCompleteEvent(MethodDesc *pFD);
- void SendEnCUpdateEvent(DebuggerIPCEventType eventType,
- Module * pModule,
- mdToken memberToken,
- mdTypeDef classToken,
+ void SendEnCUpdateEvent(DebuggerIPCEventType eventType,
+ Module * pModule,
+ mdToken memberToken,
+ mdTypeDef classToken,
SIZE_T enCVersion);
void LockAndSendBreakpointSetError(PATCH_UNORDERED_ARRAY * listUnbindablePatches);
@@ -2176,7 +2176,7 @@ public:
Thread * pThread,
bool firstChance,
bool fIsInterceptable,
- bool continuable,
+ bool continuable,
SIZE_T currentIP,
FramePointer framePointer,
bool atSafePlace);
@@ -2200,7 +2200,7 @@ public:
// Just send the actual event.
void SendRawUserBreakpoint(Thread *thread);
-
+
void SendInterceptExceptionComplete(Thread *thread);
@@ -2383,11 +2383,11 @@ public:
#ifdef FEATURE_INTEROP_DEBUGGING
static VOID M2UHandoffHijackWorker(
- T_CONTEXT *pContext,
+ T_CONTEXT *pContext,
EXCEPTION_RECORD *pExceptionRecord);
LONG FirstChanceSuspendHijackWorker(
- T_CONTEXT *pContext,
+ T_CONTEXT *pContext,
EXCEPTION_RECORD *pExceptionRecord);
static void GenericHijackFunc(void);
static void SecondChanceHijackFunc(void);
@@ -2472,9 +2472,9 @@ public:
BOOL fIsIL);
// Helper routines used by Debugger::SetIP
-
- // If we have a varargs function, we can't set the IP (we don't know how to pack/unpack the arguments), so if we
- // call SetIP with fCanSetIPOnly = true, we need to check for that.
+
+ // If we have a varargs function, we can't set the IP (we don't know how to pack/unpack the arguments), so if we
+ // call SetIP with fCanSetIPOnly = true, we need to check for that.
BOOL IsVarArgsFunction(unsigned int nEntries, PTR_NativeVarInfo varNativeInfo);
HRESULT ShuffleVariablesGet(DebuggerJitInfo *dji,
@@ -2589,8 +2589,8 @@ public:
#else // DACCESS_COMPILE
// determine whether the LS holds the data lock. If it does, we will assume the locked data is in an
- // inconsistent state and will throw an exception. The DAC will execute this if we are executing code
- // that takes the lock.
+ // inconsistent state and will throw an exception. The DAC will execute this if we are executing code
+ // that takes the lock.
static void AcquireDebuggerDataLock(Debugger *pDebugger);
// unimplemented--nothing to do here
@@ -2643,8 +2643,8 @@ public:
private:
DebuggerJitInfo *GetJitInfoWorker(MethodDesc *fd, const BYTE *pbAddr, DebuggerMethodInfo **pMethInfo);
-
- // Save the necessary information for the debugger to recognize an IP in one of the thread redirection
+
+ // Save the necessary information for the debugger to recognize an IP in one of the thread redirection
// functions.
void InitializeHijackFunctionAddress();
@@ -2827,10 +2827,10 @@ private:
// This is the main debugger lock. It is a large lock and used to synchronize complex operations
- // such as sending IPC events, debugger sycnhronization, and attach / detach.
+ // such as sending IPC events, debugger sycnhronization, and attach / detach.
// The debugger effectively can't make any radical state changes without holding this lock.
- //
- //
+ //
+ //
Crst m_mutex; // The main debugger lock.
// Flag to track if the debugger Crst needs to go into "Shutdown for Finalizer" mode.
@@ -2861,13 +2861,13 @@ private:
LONG m_dClassLoadCallbackCount;
// Lazily initialized array of debugger modules
- // @dbgtodo module - eventually, DebuggerModule should go away,
+ // @dbgtodo module - eventually, DebuggerModule should go away,
// and all such information should be stored in either the VM's module class or in the RS.
DebuggerModuleTable *m_pModules;
-
+
// DacDbiInterfaceImpl needs to be able to write to private fields in the debugger class.
friend class DacDbiInterfaceImpl;
-
+
// Set OOP by RS to request a sync after a debug event.
// Clear by LS when we sync.
Volatile<BOOL> m_RSRequestedSync;
@@ -2905,20 +2905,20 @@ public:
// There are currently three cases where we set this field to true:
//
// 1) NotifyOfCHFFilter()
- // - If the CHF filter is the first handler we encounter in the first pass, then there is no
+ // - If the CHF filter is the first handler we encounter in the first pass, then there is no
// managed stack frame at which we can intercept the exception anyway.
//
// 2) LastChanceManagedException()
// - If Watson is launched for an unhandled exception, then the exception cannot be intercepted.
//
// 3) SecondChanceHijackFuncWorker()
- // - The RS hijack the thread to this function to prevent the OS from killing the process at
+ // - The RS hijack the thread to this function to prevent the OS from killing the process at
// the end of the first pass. (When a debugger is attached, the OS does not run a second pass.)
// This function ensures that the debugger gets a second chance notification.
BOOL m_forceNonInterceptable;
- // When we are doing an early attach, the RS shim should not queue all the fake attach events for
- // the process, the appdomain, and the thread. Otherwise we'll get duplicate events when these
+ // When we are doing an early attach, the RS shim should not queue all the fake attach events for
+ // the process, the appdomain, and the thread. Otherwise we'll get duplicate events when these
// entities are actually created. This flag is used to mark whether we are doing an early attach.
// There are still time windows where we can get duplicate events, but this flag closes down the
// most common scenario.
@@ -2952,7 +2952,8 @@ public:
DWORD m_defines;
DWORD m_mdDataStructureVersion;
#ifndef DACCESS_COMPILE
- virtual void SomeWork();
+ virtual void BeforeGarbageCollection();
+ virtual void AfterGarbageCollection();
#endif
};
@@ -3042,7 +3043,7 @@ public:
void *p;
DebuggerHeap* pHeap = g_pDebugger->GetInteropSafeHeap_NoThrow();
- _ASSERTE(pHeap != NULL); // should already exist
+ _ASSERTE(pHeap != NULL); // should already exist
PREFIX_ASSUME( iCurSize >= 0 );
S_UINT32 iNewSize = S_UINT32( iCurSize ) + S_UINT32( GrowSize(iCurSize) );
@@ -3106,7 +3107,7 @@ class DebuggerPendingFuncEvalTable : private CHashTableAndData<CNewZeroData>
}
ULONG HASH(Thread* pThread)
- {
+ {
LIMITED_METHOD_CONTRACT;
return (ULONG)((SIZE_T)pThread); // only use low 32-bits if 64-bit
}
@@ -3188,7 +3189,7 @@ class DebuggerModuleTable : private CHashTableAndData<CNewZeroData>
#endif // DACCESS_COMPILE
Module * pModule1 = reinterpret_cast<Module *>(k1);
- Module * pModule2 =
+ Module * pModule2 =
dac_cast<PTR_DebuggerModuleEntry>(const_cast<HASHENTRY *>(pc2))->module->GetRuntimeModule();
return (pModule1 != pModule2);
@@ -3244,8 +3245,8 @@ public:
// struct DebuggerMethodInfoKey: Key for each of the method info hash table entries.
// Module * m_pModule: This and m_token make up the key
// mdMethodDef m_token: This and m_pModule make up the key
-//
-// Note: This is used for hashing, so the structure must be totally blittable.
+//
+// Note: This is used for hashing, so the structure must be totally blittable.
typedef DPTR(struct DebuggerMethodInfoKey) PTR_DebuggerMethodInfoKey;
struct DebuggerMethodInfoKey
{
@@ -3339,7 +3340,7 @@ public:
HRESULT AddMethodInfo(Module *pModule,
mdMethodDef token,
DebuggerMethodInfo *mi);
-
+
HRESULT OverwriteMethodInfo(Module *pModule,
mdMethodDef token,
DebuggerMethodInfo *mi,
@@ -3352,7 +3353,7 @@ public:
// (b) Perf: don't waste the memory!
void ClearMethodsOfModule(Module *pModule);
void DeleteEntryDMI(DebuggerMethodInfoEntry *entry);
-
+
#endif // #ifndef DACCESS_COMPILE
DebuggerMethodInfo *GetMethodInfo(Module *pModule, mdMethodDef token);
@@ -3367,11 +3368,11 @@ public:
class DebuggerEvalBreakpointInfoSegment
{
public:
- // DebuggerEvalBreakpointInfoSegment contains just the breakpoint
+ // DebuggerEvalBreakpointInfoSegment contains just the breakpoint
// instruction and a pointer to the associated DebuggerEval. It makes
// it easy to go from the instruction to the corresponding DebuggerEval
- // object. It has been separated from the rest of the DebuggerEval
- // because it needs to be in a section of memory that's executable,
+ // object. It has been separated from the rest of the DebuggerEval
+ // because it needs to be in a section of memory that's executable,
// while the rest of DebuggerEval does not. By having it separate, we
// don't need to have the DebuggerEval contents in executable memory.
BYTE m_breakpointInstruction[CORDbg_BREAK_INSTRUCTION_SIZE];
@@ -3509,7 +3510,7 @@ public:
// Set flags to strategic values in case we access deleted memory.
m_completed = false;
m_rethrowAbortException = true;
-#endif
+#endif
}
};
diff --git a/src/debug/inc/dbgipceventtypes.h b/src/debug/inc/dbgipceventtypes.h
index 49bf1568c3..7721115dab 100644
--- a/src/debug/inc/dbgipceventtypes.h
+++ b/src/debug/inc/dbgipceventtypes.h
@@ -2,13 +2,13 @@
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
-//
+//
// Events that go both ways
IPC_EVENT_TYPE0(DB_IPCE_INVALID_EVENT ,0x0000)
IPC_EVENT_TYPE0(DB_IPCE_TYPE_MASK ,0x0FFF)
// Some rules:
-// 1. Type0 is for marking sections in the id range.
+// 1. Type0 is for marking sections in the id range.
// Type1 is for events that go L->R, Type2 is for events that go R<-L.
// 2. All non-type 0 events should have a unique identifier & value
// 3. All type 1 events values should be in range [DB_IPCE_RUNTIME_FIRST, DB_IPCE_RUNTIME_LAST)
@@ -16,7 +16,7 @@ IPC_EVENT_TYPE0(DB_IPCE_TYPE_MASK ,0x0FFF)
// 4. All event values should be monotonically increasing, though we can skip values.
// 5. All values should be a subset of the bits specified by DB_IPCE_TYPE_MASK.
//
-// These rules are enforced by a bunch of compile time checks (C_ASSERT) in
+// These rules are enforced by a bunch of compile time checks (C_ASSERT) in
// the function DoCompileTimeCheckOnDbgIpcEventTypes.
// If you get compiler errors in this file, you are probably violating the rules above.
@@ -43,7 +43,7 @@ IPC_EVENT_TYPE1(DB_IPCE_APPLY_CHANGES_RESULT ,0x0118)
IPC_EVENT_TYPE1(DB_IPCE_CUSTOM_NOTIFICATION ,0x011B)
IPC_EVENT_TYPE1(DB_IPCE_USER_BREAKPOINT ,0x011C)
IPC_EVENT_TYPE1(DB_IPCE_FIRST_LOG_MESSAGE ,0x011D)
-// DB_IPCE_CONTINUED_LOG_MESSAGE = 0x11E, used to be here in v1.1,
+// DB_IPCE_CONTINUED_LOG_MESSAGE = 0x11E, used to be here in v1.1,
// But we've removed that remove the v2.0 protocol
IPC_EVENT_TYPE1(DB_IPCE_LOGSWITCH_SET_MESSAGE ,0x011F)
IPC_EVENT_TYPE1(DB_IPCE_CREATE_APP_DOMAIN ,0x0120)
@@ -91,8 +91,9 @@ IPC_EVENT_TYPE1(DB_IPCE_METADATA_UPDATE ,0x015D)
IPC_EVENT_TYPE1(DB_IPCE_RESOLVE_UPDATE_METADATA_1_RESULT,0x015E)
IPC_EVENT_TYPE1(DB_IPCE_RESOLVE_UPDATE_METADATA_2_RESULT,0x015F)
IPC_EVENT_TYPE1(DB_IPCE_DATA_BREAKPOINT ,0x0160)
-IPC_EVENT_TYPE1(DB_IPCE_SOME_WORK , 0x0161)
-IPC_EVENT_TYPE0(DB_IPCE_RUNTIME_LAST ,0x0162) // The last event from runtime
+IPC_EVENT_TYPE1(DB_IPCE_BEFORE_GARBAGE_COLLECTION , 0x0161)
+IPC_EVENT_TYPE1(DB_IPCE_AFTER_GARBAGE_COLLECTION , 0x0162)
+IPC_EVENT_TYPE0(DB_IPCE_RUNTIME_LAST ,0x0163) // The last event from runtime
diff --git a/src/inc/cordebug.idl b/src/inc/cordebug.idl
index cbe778814a..69be972619 100644
--- a/src/inc/cordebug.idl
+++ b/src/inc/cordebug.idl
@@ -225,19 +225,19 @@ typedef struct CorDebugGuidToTypeMapping
/*
* Callback interface for providing access to a particular target process. The
- * debugging services will call functions on this interface to access memory
- * and other data in the target process. The debugger client must implement
+ * debugging services will call functions on this interface to access memory
+ * and other data in the target process. The debugger client must implement
* this interface as appropriate for the particular target (for example, a live
* process or a memory dump). The DataTarget will only be invoked from within
- * the implementation of other ICorDebug APIs (i.e. the debugger client has
- * control over which thread it is invoked on, and when)
+ * the implementation of other ICorDebug APIs (i.e. the debugger client has
+ * control over which thread it is invoked on, and when)
*
* Error HRESULTS returned by DataTarget APIs will propagate up and be returned
* by the active ICorDebug API call.
*
* The DataTarget implementation must always return up-to-date information
- * about the target. The target process should be stopped (not changing
- * in any way) while ICorDebug APIs (and hence DataTarget APIs) are being
+ * about the target. The target process should be stopped (not changing
+ * in any way) while ICorDebug APIs (and hence DataTarget APIs) are being
* called. If the target is a live process and it's state changes,
* OpenVirtualProcess needs to be called again to provide a replacement
* ICorDebugProcess instance.
@@ -251,18 +251,18 @@ typedef struct CorDebugGuidToTypeMapping
interface ICorDebugDataTarget : IUnknown
{
/*
- * GetPlatform returns the processor architecture and operating system on
- * which the target process is (or was) running.
+ * GetPlatform returns the processor architecture and operating system on
+ * which the target process is (or was) running.
*
- * This is used by ICorDebug to determine details of the target process
- * such as its pointer size, address space layout, register set,
+ * This is used by ICorDebug to determine details of the target process
+ * such as its pointer size, address space layout, register set,
* instruction format, context layout, and calling conventions, etc.
* This platforms in this list are the only ones supported by this version
* of ICorDebug, but more may be added in future versions.
*
- * Note that this may actually indicate the platform which is being
+ * Note that this may actually indicate the platform which is being
* emulated for the target, not the actual hardware in use. For example,
- * a process running in the WOW on Windows x64 should use
+ * a process running in the WOW on Windows x64 should use
* CORDB_PLATFORM_WINDOWS_X86.
*
* Implementations should be sure to describe what the platform of the
@@ -282,7 +282,7 @@ interface ICorDebugDataTarget : IUnknown
CORDB_PLATFORM_WINDOWS_ARM64, // Windows on ARM64
CORDB_PLATFORM_POSIX_AMD64, // Posix supporting OS on Intel x64
- CORDB_PLATFORM_POSIX_X86, // Posix supporting OS on Intel x86
+ CORDB_PLATFORM_POSIX_X86, // Posix supporting OS on Intel x86
CORDB_PLATFORM_POSIX_ARM, // Posix supporting OS on ARM32
CORDB_PLATFORM_POSIX_ARM64 // Posix supporting OS on ARM64
} CorDebugPlatform;
@@ -292,13 +292,13 @@ interface ICorDebugDataTarget : IUnknown
/*
* ReadVirtual - Read virtual memory from the target process.
*
- * Requests contiguous memory starting at the specified target address to
- * be read from the target process into the supplied buffer. If at least
- * the first byte (at the specified start address) can be read, the call
+ * Requests contiguous memory starting at the specified target address to
+ * be read from the target process into the supplied buffer. If at least
+ * the first byte (at the specified start address) can be read, the call
* should return success (to support efficient reading of data structures
* with self-describing length, like null-terminated strings).
*
- * On success, the actual number of bytes read must be stored into
+ * On success, the actual number of bytes read must be stored into
* pBytesRead.
*/
HRESULT ReadVirtual([in] CORDB_ADDRESS address,
@@ -309,12 +309,12 @@ interface ICorDebugDataTarget : IUnknown
/*
* GetThreadContext - Get the thread context (register values) for a thread.
*
- * Requests the current thread context for the specified (operating-system
- * defined) thread identifier. The size and format of the context record
- * is platform dependant, and is determined by the result of the call to
- * GetPlatform.
- *
- * The context flags specify, in a platform-dependent manor, which portions
+ * Requests the current thread context for the specified (operating-system
+ * defined) thread identifier. The size and format of the context record
+ * is platform dependant, and is determined by the result of the call to
+ * GetPlatform.
+ *
+ * The context flags specify, in a platform-dependent manor, which portions
* of the context should be read. contextSize specifies the size of the
* supplied buffer, but the function is free to not fill the whole buffer
* if it is possible to determine the actual size from the context.
@@ -488,7 +488,7 @@ interface ICorDebugMergedAssemblyRecord : IUnknown
* These names do not include qualifiers such as file extensions, culture, version, or public key token
*/
HRESULT GetSimpleName([in] ULONG32 cchName, [out] ULONG32 *pcchName, [out, size_is(cchName), length_is(*pcchName)] WCHAR szName[]);
-
+
/*
* GetVersion - Gives the assembly version information
*/
@@ -507,7 +507,7 @@ interface ICorDebugMergedAssemblyRecord : IUnknown
/*
* GetPublicKeyToken - Gives the assembly public key token (the last 8 bytes of a SHA1 hash of the public key)
*/
- HRESULT GetPublicKeyToken([in] ULONG32 cbPublicKeyToken, [out] ULONG32 *pcbPublicKeyToken,
+ HRESULT GetPublicKeyToken([in] ULONG32 cbPublicKeyToken, [out] ULONG32 *pcbPublicKeyToken,
[out, size_is(cbPublicKeyToken), length_is(*pcbPublicKeyToken)] BYTE pbPublicKeyToken[]);
/*
@@ -696,7 +696,7 @@ interface ICorDebugVirtualUnwinder : IUnknown
[out] ULONG32* contextSize,
[out, size_is(cbContextBuf)] BYTE contextBuf[]);
- /*
+ /*
* Advances to the callers context.
*
* If a failing HRESULT is returned ICorDebug APIs will return CORDBG_E_DATA_TARGET_ERROR.
@@ -812,7 +812,7 @@ interface ICorDebugDataTarget3 : IUnknown
};
/*
- * Data target that knows how to obtain debugee's process id.
+ * Data target that knows how to obtain debugee's process id.
* Debugee is not necessarily a living process at that time or on the same machine.
*/
[
@@ -832,20 +832,20 @@ interface ICorDebugDataTarget4 : IUnknown
};
/*
- * Mutable extension to the data target. This version of ICorDebugDataTarget
- * can be implemented by targets that wish to support modification of the target
+ * Mutable extension to the data target. This version of ICorDebugDataTarget
+ * can be implemented by targets that wish to support modification of the target
* process (such as for live invasive debugging).
*
- * All of these APIs are optional in the sense that no core inspection-based
+ * All of these APIs are optional in the sense that no core inspection-based
* debugging functionality will be lost by not implementing this interface or
* by the failure of these methods. Any failure HRESULT from these APIs will
* propagate out as the HRESULT from the ICorDebug API call.
*
* Note that a single ICorDebug API call may result in multiple mutations,
- * and there is no mechanism for ensuring related mutations are applied
+ * and there is no mechanism for ensuring related mutations are applied
* transactionally (all-or-none). This means that if a mutation fails after
* others (for the same ICorDebug call) have succeeded, the target process may
- * be left in an inconsistent state and debugging may become unreliable.
+ * be left in an inconsistent state and debugging may become unreliable.
*/
[
object,
@@ -879,7 +879,7 @@ interface ICorDebugMutableDataTarget : ICorDebugDataTarget
[in] ULONG32 contextSize,
[in, size_is(contextSize)] const BYTE * pContext);
- /*
+ /*
* Invoke to change the continue-status for the outstanding debug-event on
* the specified thread.
*
@@ -887,7 +887,7 @@ interface ICorDebugMutableDataTarget : ICorDebugDataTarget
* dwThreadId - OS Thread Id of the debug event
* continueStatus - New continue status being requested. See the
* definition of CORDB_CONTINUE_STATUS for details.
- *
+ *
* This API is used when the Debugger makes an ICorDebug API request
* which requires the current debug event to be handled in a way that is
* potentially different from which it would be otherwise. For example,
@@ -902,8 +902,8 @@ interface ICorDebugMutableDataTarget : ICorDebugDataTarget
/*
- * Interface used by the data access services layer to locate metadata
- * of assemblies in a target.
+ * Interface used by the data access services layer to locate metadata
+ * of assemblies in a target.
*
* The API client must implement this interface as appropriate for the
* particular target (for example, a live process or a memory dump).
@@ -1131,7 +1131,7 @@ interface ICorDebugManagedCallback : IUnknown
[in] ICorDebugThread *thread);
/*
- * ExitThread is called when a thread which has run managed code exits.
+ * ExitThread is called when a thread which has run managed code exits.
* Once this callback is fired, the thread no longer will appear in thread enumerations.
*/
@@ -1289,14 +1289,14 @@ interface ICorDebugManagedCallback : IUnknown
[in] ICorDebugThread *pThread);
/*
- * UpdateModuleSymbols is called when PDB debug symbols are available for an
- * in-memory module. This is a debugger's chance to load the symbols
+ * UpdateModuleSymbols is called when PDB debug symbols are available for an
+ * in-memory module. This is a debugger's chance to load the symbols
* (using ISymUnmanagedBinder::GetReaderForStream), and bind source-level
* breakpoints for the module.
- *
+ *
* This callback is no longer dispatched for dynamic modules. Instead,
* debuggers should call ICorDebugModule3::CreateReaderForInMemorySymbols
- * to obtain a symbol reader for a dynamic module.
+ * to obtain a symbol reader for a dynamic module.
*/
HRESULT UpdateModuleSymbols([in] ICorDebugAppDomain *pAppDomain,
[in] ICorDebugModule *pModule,
@@ -1335,17 +1335,17 @@ interface ICorDebugManagedCallback : IUnknown
interface ICorDebugManagedCallback3 : IUnknown
{
/* Callback indicating an enabled custom debugger notification has been
- * raised. pThread points to the thread that issued the notification.
- * A subsequent call to GetCurrentCustomDebuggerNotification will retrieve the object that was passed to
+ * raised. pThread points to the thread that issued the notification.
+ * A subsequent call to GetCurrentCustomDebuggerNotification will retrieve the object that was passed to
* System.Diagnostics.Debugger.CustomNotification, whose type will be one
* that has been enabled via SetEnableCustomNotification.
- * Note that this will return non-null if and only if we are currently inside a CustomNotification
- * callback.
+ * Note that this will return non-null if and only if we are currently inside a CustomNotification
+ * callback.
* The debugger can read type-specific parameters from fields of the data
- * object, and store responses into fields.
+ * object, and store responses into fields.
* ICorDebug imposes no policy on the types of notifications or their
* contents, and their semantics are strictly a contract between
- * debuggers and applications/frameworks.
+ * debuggers and applications/frameworks.
*/
HRESULT CustomNotification([in] ICorDebugThread * pThread, [in] ICorDebugAppDomain * pAppDomain);
}
@@ -1359,7 +1359,8 @@ interface ICorDebugManagedCallback3 : IUnknown
interface ICorDebugManagedCallback4 : IUnknown
{
- HRESULT SomeWork([in] ICorDebugThread * pThread, [in] ICorDebugAppDomain * pAppDomain);
+ HRESULT BeforeGarbageCollection(ICorDebugController* pController);
+ HRESULT AfterGarbageCollection(ICorDebugController* pController);
}
@@ -1454,7 +1455,7 @@ interface ICorDebugManagedCallback2 : IUnknown
/*
- * For non-intercepted exceptions, ExceptionUnwind is called at the beginning of the second pass
+ * For non-intercepted exceptions, ExceptionUnwind is called at the beginning of the second pass
* when we start to unwind the stack. For intercepted exceptions, ExceptionUnwind is called when
* the interception is complete, conceptually at the end of the second pass.
*
@@ -1647,15 +1648,15 @@ interface ICorDebug : IUnknown
*
* This should be set after Initialize and before any calls to CreateProcess or DebugActiveProcess.
*
- * However, for legacy purposes, it is not absolutely required to set this until
- * before the first native debug event is fired. Specifically, if CreateProcess has the
+ * However, for legacy purposes, it is not absolutely required to set this until
+ * before the first native debug event is fired. Specifically, if CreateProcess has the
* CREATE_SUSPENDED flag, native debug events will not be dispatched until the main thread
* is resumed.
- * DebugActiveProcess will dispatch native debug events immediately, and so the unmanaged callback
+ * DebugActiveProcess will dispatch native debug events immediately, and so the unmanaged callback
* must be set before DebugActiveProcess is called.
*
- * Returns:
- * S_OK if callback pointer is successfully updated.
+ * Returns:
+ * S_OK if callback pointer is successfully updated.
* failure on any failure.
*
*/
@@ -1742,7 +1743,7 @@ interface ICorDebug : IUnknown
#pragma warning(pop)
/*
- * A debugger can implement this interface and pass it to ICorDebugRemote to specify the host name of the
+ * A debugger can implement this interface and pass it to ICorDebugRemote to specify the host name of the
* target machine in Mac remote debugging scenarios. This is only supported on Silverlight.
*/
[
@@ -1755,26 +1756,26 @@ interface ICorDebugRemoteTarget : IUnknown
{
/*
* Return the host name of the target machine. The host name can either be a fully qualified domain name or
- * an IPv4 address. If cchHostName is 0 and szHostName is NULL, this function just returns the number of
+ * an IPv4 address. If cchHostName is 0 and szHostName is NULL, this function just returns the number of
* characters including the NULL character in the host name.
*
- * cchHostName is the number of characters in the buffer szHostName. If this is 0, then szHostName must
+ * cchHostName is the number of characters in the buffer szHostName. If this is 0, then szHostName must
* be NULL. If it is not 0, then szHostName must be non-NULL.
- *
- * pcchHostName returns the number of characters including the NULL character in the host name. This can
+ *
+ * pcchHostName returns the number of characters including the NULL character in the host name. This can
* be NULL.
- *
+ *
* szHostName is the buffer for returning the host name.
*/
HRESULT GetHostName([in] ULONG32 cchHostName,
[out, annotation("_Out_")] ULONG32 * pcchHostName,
- [out, size_is(cchHostName), length_is(*pcchHostName), annotation("_Out_writes_to_opt_(cchHostName, *pcchHostName)")]
+ [out, size_is(cchHostName), length_is(*pcchHostName), annotation("_Out_writes_to_opt_(cchHostName, *pcchHostName)")]
WCHAR szHostName[]);
}
/*
- * A debugger can QI for this interface from an ICorDebug interface in order to specify a target machine in
+ * A debugger can QI for this interface from an ICorDebug interface in order to specify a target machine in
* Mac remote debugging scenarios. This is only supported on Silverlight.
*/
[
@@ -1923,7 +1924,7 @@ interface ICorDebug2 : IUnknown
ver_ICorDebugAppDomain3 = CorDebugVersion_4_5,
ver_ICorDebugCode3 = CorDebugVersion_4_5,
ver_ICorDebugILFrame3 = CorDebugVersion_4_5,
-
+
CorDebugLatestVersion = CorDebugVersion_4_5
} CorDebugInterfaceVersion;
@@ -2076,7 +2077,7 @@ interface ICorDebugController : IUnknown
*
* Note that currently if unmanaged debugging is enabled this call will
* fail due to OS limitations.
- *
+ *
* Returns S_OK on success.
*
*/
@@ -2184,13 +2185,13 @@ interface ICorDebugAppDomain : ICorDebugController
* callers know the full size of buffer they'd need to allocate to get the full string.
*
* if (cchName == 0) then we're in "query" mode:
- * This fails if szName is non-null or pcchName is null
+ * This fails if szName is non-null or pcchName is null
* Else this function will set pcchName to let the caller know how large of a buffer to allocate
* and return S_OK.
*
- * if (cchName != 0) then
+ * if (cchName != 0) then
* This fails if szName is null.
- * Else this copies as much as can fit into szName (it will always null terminate szName) and returns S_OK.
+ * Else this copies as much as can fit into szName (it will always null terminate szName) and returns S_OK.
* pcchName can be null. If it's non-null, we set it.
*
* The expected usage pattern is that a client will call once to get the size of a buffer needed for the name,
@@ -2215,7 +2216,7 @@ interface ICorDebugAppDomain : ICorDebugController
HRESULT GetObject([out] ICorDebugValue **ppObject);
- /*
+ /*
* DEPRECATED. This does nothing in V3. Attaching is process-wide.
*/
@@ -2372,7 +2373,7 @@ interface ICorDebugAssembly : IUnknown
/*
* GetName returns the full path and filename of the assembly.
* If the assembly has no filename (i.e. it is in-memory only),
- * S_FALSE is returned, and a fabricated string is stored into szName.
+ * S_FALSE is returned, and a fabricated string is stored into szName.
*/
HRESULT GetName([in] ULONG32 cchName,
@@ -2417,7 +2418,7 @@ interface ICorDebugAssembly3 : IUnknown
/*
* Gets an enumeration for all the assemblies contained within this assembly
* If the assembly isn't a container, the result is S_FALSE and the enumeration
- * will be empty. Symbols are needed to compute this result; if they aren't
+ * will be empty. Symbols are needed to compute this result; if they aren't
* present an error will be returned and no enumeration provided.
*/
HRESULT EnumerateContainedAssemblies(ICorDebugAssemblyEnum **ppAssemblies);
@@ -2553,7 +2554,7 @@ typedef struct COR_GC_REFERENCE
ICorDebugAppDomain *Domain; // The AppDomain of the handle/object, may be null.
ICorDebugValue *Location; // A reference to the object
CorGCReferenceType Type; // Where the root came from.
-
+
/*
DependentSource - for HandleDependent
RefCount - for HandleStrongRefCount
@@ -2582,13 +2583,13 @@ cpp_quote("#define _DEF_COR_ARRAY_LAYOUT_")
typedef struct COR_ARRAY_LAYOUT
{
COR_TYPEID componentID; // The type of objects the array contains
-
+
CorElementType componentType; // Whether the component itself is a GC reference, value class, or primitive
-
+
ULONG32 firstElementOffset; // The offset to the first element
ULONG32 elementSize; // The size of each element
ULONG32 countOffset; // The offset to the number of elements in the array.
-
+
// For multidimensional arrays (works with normal arrays too).
ULONG32 rankSize; // The size of the rank
ULONG32 numRanks; // The number of ranks in the array (1 for array, N for multidimensional array)
@@ -2617,7 +2618,7 @@ typedef struct COR_FIELD
mdFieldDef token; // FieldDef token to get the field info
ULONG32 offset; // Offset in object of data.
COR_TYPEID id; // TYPEID of the field
-
+
CorElementType fieldType;
} COR_FIELD;
cpp_quote("#endif // _DEF_COR_FIELD_")
@@ -2951,15 +2952,15 @@ interface ICorDebugProcess2 : IUnknown
interface ICorDebugProcess3 : IUnknown
{
/* Enables (or disables) custom debugger notifications of a specified
- * type (which implements ICustomDebuggerNotification).
+ * type (which implements ICustomDebuggerNotification).
* When this has been enabled, calls to
* System.Diagnostics.Debugger.CustomNotification with a data argument
* of the specified class will trigger a CustomNotification callback.
* Notifications are disabled by default and the debugger must opt-into
* any notification types it knows of and wishes to handle.
- * Since ICorDebugClass is scoped by appdomains, the debugger needs to
- * call this API for every appdomain in the process if it's interested in
- * receiving the notification across the entire process.
+ * Since ICorDebugClass is scoped by appdomains, the debugger needs to
+ * call this API for every appdomain in the process if it's interested in
+ * receiving the notification across the entire process.
*/
HRESULT SetEnableCustomNotification(ICorDebugClass * pClass, BOOL fEnable);
@@ -2979,14 +2980,14 @@ interface ICorDebugProcess5 : IUnknown
HRESULT GetObject([in] CORDB_ADDRESS addr, [out] ICorDebugObjectValue **pObject);
HRESULT EnumerateGCReferences([in] BOOL enumerateWeakReferences, [out] ICorDebugGCReferenceEnum **ppEnum);
HRESULT EnumerateHandles([in] CorGCReferenceType types, [out] ICorDebugGCReferenceEnum **ppEnum);
-
+
HRESULT GetTypeID([in] CORDB_ADDRESS obj, [out] COR_TYPEID *pId);
HRESULT GetTypeForTypeID([in] COR_TYPEID id, [out] ICorDebugType **ppType);
-
+
HRESULT GetArrayLayout([in] COR_TYPEID id, [out] COR_ARRAY_LAYOUT *pLayout);
HRESULT GetTypeLayout([in] COR_TYPEID id, [out] COR_TYPE_LAYOUT *pLayout);
HRESULT GetTypeFields([in] COR_TYPEID id, ULONG32 celt, COR_FIELD fields[], ULONG32 *pceltNeeded);
-
+
/*
* Enables the specified policy.
*/
@@ -2997,12 +2998,12 @@ interface ICorDebugProcess5 : IUnknown
// Describes formats of pRecord byte blob in DecodeEvent.
// This is dependent on the target architecture.
typedef enum CorDebugRecordFormat
-{
+{
FORMAT_WINDOWS_EXCEPTIONRECORD32 = 1,
FORMAT_WINDOWS_EXCEPTIONRECORD64 = 2,
} CorDebugRecordFormat;
-// dwFlags in DecodeEvent is dependent on the target architecture.
+// dwFlags in DecodeEvent is dependent on the target architecture.
// Definition of DecodeEvent flags on Windows.
typedef enum CorDebugDecodeEventFlagsWindows
{
@@ -3020,13 +3021,13 @@ typedef enum CorDebugDebugEventKind
DEBUG_EVENT_KIND_MANAGED_EXCEPTION_UNHANDLED = 6
} CorDebugDebugEventKind;
-// Describes what amount of cached data must be discarded based on changes to the
+// Describes what amount of cached data must be discarded based on changes to the
// process
typedef enum CorDebugStateChange
{
- PROCESS_RUNNING = 0x0000001, // The process reached a new memory state via
- // forward execution.
- FLUSH_ALL = 0x0000002, // The process' memory might be arbitrarily
+ PROCESS_RUNNING = 0x0000001, // The process reached a new memory state via
+ // forward execution.
+ FLUSH_ALL = 0x0000002, // The process' memory might be arbitrarily
// different than it was before.
} CorDebugStateChange;
@@ -3070,7 +3071,7 @@ typedef enum CorDebugCodeInvokePurpose
CODE_INVOKE_PURPOSE_NONE,
CODE_INVOKE_PURPOSE_NATIVE_TO_MANAGED_TRANSITION, // The managed code will run any managed entrypoint
// such as a reverse p-invoke. Any more detailed purpose
- // is unknown by the runtime.
+ // is unknown by the runtime.
CODE_INVOKE_PURPOSE_CLASS_INIT, // The managed code will run a static constructor
CODE_INVOKE_PURPOSE_INTERFACE_DISPATCH, // The managed code will run the implementation for
// some interface method that was called
@@ -3084,20 +3085,20 @@ typedef enum CorDebugCodeInvokePurpose
]
interface ICorDebugProcess6 : IUnknown
{
- //Decodes managed debug events which have been encapsulated in the payload of
+ //Decodes managed debug events which have been encapsulated in the payload of
//specially crafted native exception debug events
HRESULT DecodeEvent(
[in, length_is(countBytes), size_is(countBytes)] const BYTE pRecord[],
[in] DWORD countBytes,
[in] CorDebugRecordFormat format,
- [in] DWORD dwFlags,
- [in] DWORD dwThreadId,
+ [in] DWORD dwFlags,
+ [in] DWORD dwThreadId,
[out] ICorDebugDebugEvent **ppEvent);
// Debugger calls this to notify ICorDebug that the process is running.
//
// Notes:
- // ProcessStateChanged(PROCESS_RUNNING) has similar semantics to
+ // ProcessStateChanged(PROCESS_RUNNING) has similar semantics to
// ICorDebugProcess::Continue();
HRESULT ProcessStateChanged([in] CorDebugStateChange change);
@@ -3110,13 +3111,13 @@ interface ICorDebugProcess6 : IUnknown
// various ICorDebug APIs described below.
//
// Terminology
- // The aggregate modules are called containers, the modules inside are called
- // sub-modules or virtual modules. Both container modules and sub-modules are
- // represented with the ICorDebugModule interface, however the behavior of the
+ // The aggregate modules are called containers, the modules inside are called
+ // sub-modules or virtual modules. Both container modules and sub-modules are
+ // represented with the ICorDebugModule interface, however the behavior of the
// interface is slightly different in each case, as described below.
- // In addition there may still be modules loaded that weren't merged during build.
+ // In addition there may still be modules loaded that weren't merged during build.
// These modules, called regular modules, are neither container modules nor
- // sub-modules.
+ // sub-modules.
//
// Modules and assemblies
// Multi-module assemblies are not supported for assembly merging scenarios
@@ -3139,7 +3140,7 @@ interface ICorDebugProcess6 : IUnknown
// -have a reduced set of metadata that corresponds only to the original
// assembly that was merged in.
// -The metadata names have no mangling.
- // -Metadata tokens are unlikely to match with the tokens in the original
+ // -Metadata tokens are unlikely to match with the tokens in the original
// assembly before it was merged in the build process
// -ICorDebugModule.GetName() returns the assembly name (not a file path)
// -ICorDebug.GetSize() returns the original unmerged image size.
@@ -3169,7 +3170,7 @@ interface ICorDebugProcess6 : IUnknown
// Disabled - Returns a list of container assemblies + regular assemblies
// (no sub-assemblies are shown)
// Enabled - Returns the list of sub-assemblies + regular assemblies
- // (no container assemblies are shown).
+ // (no container assemblies are shown).
// Note: If any container assembly is missing symbols, none of its
// sub-assemblies will be enumerated. If any regular assembly is
// missing symbols it may or may not be enumerated.
@@ -3190,10 +3191,10 @@ interface ICorDebugProcess6 : IUnknown
HRESULT EnableVirtualModuleSplitting(BOOL enableSplitting);
// Changes internal state of the debuggee so that the System.Debugger.IsAttached API in the BCL
- // returns true.
+ // returns true.
//
// Returns
- // S_OK - debuggee is succesfully updated
+ // S_OK - debuggee is succesfully updated
// CORDBG_E_MODULE_NOT_LOADED - assembly containing System.Debugger.IsAttached API is not loaded
// or some other error is preventing it from being recognized such as missing metadata. This error
// is common and benign - it is recommended to try the call again when future assemblies load.
@@ -3217,7 +3218,7 @@ interface ICorDebugProcess6 : IUnknown
HRESULT GetExportStepInfo([in]LPCWSTR pszExportName, [out]CorDebugCodeInvokeKind* pInvokeKind, [out]CorDebugCodeInvokePurpose* pInvokePurpose);
}
-typedef enum WriteableMetadataUpdateMode
+typedef enum WriteableMetadataUpdateMode
{
LegacyCompatPolicy,
AlwaysShowUpdates
@@ -3250,7 +3251,7 @@ interface ICorDebugProcess8 : IUnknown
* EnableExceptionCallbacksOutsideOfMyCode enables/disables certain types of exception callback to ICorDebugManagedCallback2.
* If the flag is FALSE:
* 1) DEBUG_EXCEPTION_FIRST_CHANCE callbacks won't called in the debugger.
- * 2) DEBUG_EXCEPTION_CATCH_HANDLER_FOUND callbacks won't be called if an exception never escapes into user code.
+ * 2) DEBUG_EXCEPTION_CATCH_HANDLER_FOUND callbacks won't be called if an exception never escapes into user code.
* (i.e. a path from an exception origin to an exception handler has no methods marked as JMC)
*
* Default value of this flag is TRUE.
@@ -3287,23 +3288,23 @@ interface ICorDebugModuleDebugEvent : ICorDebugDebugEvent
]
interface ICorDebugExceptionDebugEvent : ICorDebugDebugEvent
{
- // The meaning of this stack pointer varies based on event type (available from
+ // The meaning of this stack pointer varies based on event type (available from
// ICorDebugDebugEvent.GetEventType())
//
// MANAGED_EXCEPTION_FIRST_CHANCE -> The stack pointer for the frame that threw the exception
- // MANAGED_EXCEPTION_USER_FIRST_CHANCE -> The stack pointer for the user-code frame closest to the point of
+ // MANAGED_EXCEPTION_USER_FIRST_CHANCE -> The stack pointer for the user-code frame closest to the point of
// the thrown exception
// MANAGED_EXCEPTION_CATCH_HANDLER_FOUND -> The stack pointer for the frame that contains the catch handler
// MANAGED_EXCEPTION_UNHANDLED -> *pStackPointer will be NULL
HRESULT GetStackPointer([out]CORDB_ADDRESS *pStackPointer);
- // The meaning of the IP varies based on event type (available from
+ // The meaning of the IP varies based on event type (available from
// ICorDebugDebugEvent.GetEventType())
//
// MANAGED_EXCEPTION_FIRST_CHANCE -> The address of the faulting instruction
- // MANAGED_EXCEPTION_USER_FIRST_CHANCE -> Within the frame indicated by GetStackPointer(),
- // this is the code address where execution would resume if no exception had been
- // raised. The exception may or may not cause different code to be executed in this
+ // MANAGED_EXCEPTION_USER_FIRST_CHANCE -> Within the frame indicated by GetStackPointer(),
+ // this is the code address where execution would resume if no exception had been
+ // raised. The exception may or may not cause different code to be executed in this
// frame such as a catch of finally clause.
// MANAGED_EXCEPTION_CATCH_HANDLER_FOUND -> Within the frame indicated by GetStackPointer(),
// this is the code address where catch handler execution will start
@@ -3747,7 +3748,7 @@ interface ICorDebugRegisterSet : IUnknown
REGISTER_ARM_D31,
// ARM64 registers
-
+
REGISTER_ARM64_PC = 0,
REGISTER_ARM64_SP,
REGISTER_ARM64_FP,
@@ -4004,7 +4005,7 @@ interface ICorDebugThread : IUnknown
* If the thread's user state includes USER_UNSAFE_POINT, then the thread may block a GC.
* This means the suspended thread has a mcuh higher chance of causing a deadlock.
*
- * This may not affect debug events already queued. Thus a debugger should drain the entire
+ * This may not affect debug events already queued. Thus a debugger should drain the entire
* event queue (via calling HasQueuedCallbacks) before suspending or resuming threads. Else it
* may get events on a thread that it believes it has already suspended.
*
@@ -4255,7 +4256,7 @@ interface ICorDebugThread4 : IUnknown
{
/*
* Returns S_OK if ICorDebugThread::GetCurrentException() is non-NULL and the exception
- * it refers to has completed the first pass of exception handling without locating
+ * it refers to has completed the first pass of exception handling without locating
* a catch clause.
* Returns S_FALSE if there is no exception, it hasn't completed first pass handling,
* or a catch handler was located
@@ -4264,13 +4265,13 @@ interface ICorDebugThread4 : IUnknown
HRESULT HasUnhandledException();
HRESULT GetBlockingObjects([out] ICorDebugBlockingObjectEnum **ppBlockingObjectEnum);
- /*
+ /*
* Gets the current CustomNotification object on the current thread. This could be NULL if no
* current notification object exists. If we aren't currently inside a CustomNotification callback,
* this will always return NULL.
- * A debugger can examine this object to determine how to handle the notification.
- * See ICorDebugManagedCallback3::CustomNotification for more information about
- * custom notifications.
+ * A debugger can examine this object to determine how to handle the notification.
+ * See ICorDebugManagedCallback3::CustomNotification for more information about
+ * custom notifications.
*/
HRESULT GetCurrentCustomDebuggerNotification([out] ICorDebugValue ** ppNotificationObject);
};
@@ -4292,11 +4293,11 @@ interface ICorDebugStackWalk : IUnknown
SET_CONTEXT_FLAG_UNWIND_FRAME = 0x2,
} CorDebugSetContextFlag;
- /*
+ /*
* Get the current context of this stack frame.
- *
- * The CONTEXT is retrieved from the ICorDebugStackWalk. As unwinding may only restore a subset of the
- * registers, such as only non-volatile registers, the context may not exactly match the register state at
+ *
+ * The CONTEXT is retrieved from the ICorDebugStackWalk. As unwinding may only restore a subset of the
+ * registers, such as only non-volatile registers, the context may not exactly match the register state at
* the time of the actual call.
*/
HRESULT GetContext([in] ULONG32 contextFlags,
@@ -4304,14 +4305,14 @@ interface ICorDebugStackWalk : IUnknown
[out] ULONG32* contextSize,
[out, size_is(contextBufSize)] BYTE contextBuf[]);
- /*
+ /*
* Change the current context of this stack walk, allowing the
* debugger to move it to an arbitrary context. Does not actually
* alter the current context of the thread whose stack is being walked.
*
* The CONTEXT has to be a valid CONTEXT of a stack frame on the thread.
* If the CONTEXT is outside of the current thread's stack range, we'll
- * return a failure HRESULT. Otherwise, in the case of an invalid CONTEXT,
+ * return a failure HRESULT. Otherwise, in the case of an invalid CONTEXT,
* the result is undefined.
*/
HRESULT SetContext([in] CorDebugSetContextFlag flag,
@@ -4319,11 +4320,11 @@ interface ICorDebugStackWalk : IUnknown
[in, size_is(contextSize)] BYTE context[]);
/*
- * Attempt to advance the stackwalk to the next frame.
+ * Attempt to advance the stackwalk to the next frame.
* If the current frame type is a native stack frame, Next() will not advance to the caller frame.
* Instead, Next() will advance to the next managed stack frame or the next internal frame marker.
*
- * If a debugger wants to unwind unmanaged stack frames, it needs to start from the
+ * If a debugger wants to unwind unmanaged stack frames, it needs to start from the
* native stack frame itself. It can seed the unwind by calling GetContext().
*
* This function will return CORDBG_S_AT_END_OF_STACK when there are no more frames.
@@ -4366,7 +4367,7 @@ interface ICorDebugChain : IUnknown
* call chain. Note that you cannot make any assumptions about
* what is actually stored on the stack - the numeric range is to compare
* stack frame locations only.
- * The start of a stack range is the leafmost boundary of the chain, and
+ * The start of a stack range is the leafmost boundary of the chain, and
* the end of a stack range is the rootmost boundary of the chain.
*/
@@ -4498,9 +4499,9 @@ interface ICorDebugFrame : IUnknown
HRESULT GetCode([out] ICorDebugCode **ppCode);
/*
- * GetFunction returns the function for the code which this stack
- * frame is running.
- * For ICorDebugInternalFrames, this may point to a method the
+ * GetFunction returns the function for the code which this stack
+ * frame is running.
+ * For ICorDebugInternalFrames, this may point to a method the
* frame is associated with (which may be in a different AppDomain
* from the frame itself), or may fail if the frame doesn't relate to any
* particular function.
@@ -4511,7 +4512,7 @@ interface ICorDebugFrame : IUnknown
/*
* GetFunctionToken is a convenience routine to return the token for the
* function for the code which this stack frame is running.
- * The scope to resolve the token can be gotten from the ICorDebugFunction
+ * The scope to resolve the token can be gotten from the ICorDebugFunction
* associated with this frame.
*/
@@ -4524,7 +4525,7 @@ interface ICorDebugFrame : IUnknown
* cannot make any assumptions about what is actually stored on
* the stack - the numeric range is to compare stack frame
* locations only.
- * The start of a stack range is the leafmost boundary of the frame, and
+ * The start of a stack range is the leafmost boundary of the frame, and
* the end of a stack range is the rootmost boundary of the frame.
*/
@@ -4628,7 +4629,7 @@ interface ICorDebugInternalFrame2 : IUnknown
/*
* Check if an internal frame is closer to the leaf than pFrameToCompare.
*/
- HRESULT IsCloserToLeaf([in] ICorDebugFrame * pFrameToCompare,
+ HRESULT IsCloserToLeaf([in] ICorDebugFrame * pFrameToCompare,
[out] BOOL * pIsCloser);
};
@@ -4727,7 +4728,7 @@ interface ICorDebugILFrame : ICorDebugFrame
/*
* EnumerateArguments returns a list of the arguments available in the
* frame. Note that this will include varargs arguments as well as
- * arguments declared by the function signature (inlucding the implicit
+ * arguments declared by the function signature (inlucding the implicit
* "this" argument if any).
*/
@@ -4783,8 +4784,8 @@ interface ICorDebugILFrame2 : IUnknown
{
/*
* Performs an on-stack replacement for an outstanding function remap opportunity.
- * This is used to update execution of an edited function to the latest version,
- * preserving the current frame state (such as the values of all locals).
+ * This is used to update execution of an edited function to the latest version,
+ * preserving the current frame state (such as the values of all locals).
* This can only be called when a FunctionRemapOpportunity callback has been delivered
* for this leaf frame, and the callback has not yet been continued. newILOffset
* is the offset into the new function at which execution should continue.
@@ -4857,7 +4858,7 @@ interface ICorDebugILFrame4 : IUnknown
* instrumented IL. If the IL is not instrumented the enumeration will
* be empty and S_OK is returned.
*/
-
+
HRESULT EnumerateLocalVariablesEx([in] ILCodeKind flags, [out] ICorDebugValueEnum **ppValueEnum);
/*
@@ -4894,7 +4895,7 @@ interface ICorDebugILFrame4 : IUnknown
};
/*
- * ICorDebugNativeFrame is a specialized interface of ICorDebugFrame for jitted frames, i.e.
+ * ICorDebugNativeFrame is a specialized interface of ICorDebugFrame for jitted frames, i.e.
* native frames for managed methods.
* (Note that jitted frames implement both ICorDebugILFrame and ICorDebugNativeFrame.)
*/
@@ -5046,7 +5047,7 @@ interface ICorDebugNativeFrame2 : IUnknown
interface ICorDebugModule3 : IUnknown
{
/*
- * CreateReaderForInMemorySymbols creates a debug symbol reader object (eg.
+ * CreateReaderForInMemorySymbols creates a debug symbol reader object (eg.
* ISymUnmanagedReader) for a dynamic module. This symbol reader becomes stale
* and is usually discarded whenever a LoadClass callback is delivered for the
* module.
@@ -5063,7 +5064,7 @@ interface ICorDebugModule3 : IUnknown
* yet available.
*
* Notes:
- * This API can also be used to create a symbol reader object for in-memory
+ * This API can also be used to create a symbol reader object for in-memory
* (non-dynamic) modules, but only after the symbols are first available
* (indicated by the UpdateModuleSymbols callback).
*
@@ -5072,7 +5073,7 @@ interface ICorDebugModule3 : IUnknown
* the underlying data may have changed (i.e. a LoadClass event).
*
* Dynamic modules do not have any symbols available until the first type has been
- * loaded into them (as indicated by the LoadClass callback).
+ * loaded into them (as indicated by the LoadClass callback).
*/
HRESULT CreateReaderForInMemorySymbols([in] REFIID riid,
[out][iid_is(riid)] void **ppObj);
@@ -5082,7 +5083,7 @@ interface ICorDebugModule3 : IUnknown
* ICorDebugRuntimeUnwindableFrame is a specialized interface of ICorDebugFrame for unmanaged methods
* which requires special knowledge to unwind. They are not jitted code. When the debugger sees this type
* of frames, it should use ICorDebugStackWalk::Next() to unwind, but it should do inspection itself.
- * The debugger can call ICorDebugStackWalk::GetContext() to retrieve the CONTEXT of the frame when it gets
+ * The debugger can call ICorDebugStackWalk::GetContext() to retrieve the CONTEXT of the frame when it gets
* an ICorDebugRuntimeUnwindableFrame.
*/
@@ -5135,8 +5136,8 @@ interface ICorDebugModule : IUnknown
/*
* GetName returns a name identifying the module.
*
- * For on-disk modules this is a full path. For dynamic modules this
- * is just the filename if one was provided. Otherwise, and for other
+ * For on-disk modules this is a full path. For dynamic modules this
+ * is just the filename if one was provided. Otherwise, and for other
* in-memory modules, this is just the simple name stored in the module's
* metadata.
*/
@@ -5455,7 +5456,7 @@ ICorDebugFunction3 is a logical extension to ICorDebugFunction.
interface ICorDebugFunction3 : IUnknown
{
/*
- * If this function has an active rejit request it will be returned in
+ * If this function has an active rejit request it will be returned in
* pRejitedILCode.
* If there is no active request (a common case) then *ppRejitedILCode = NULL
*
@@ -5463,7 +5464,7 @@ interface ICorDebugFunction3 : IUnknown
* ICorProfilerCallback4::GetReJITParameters(). It may not yet be jitted
* and threads may still be executing in the original version of the code.
*
- * A rejit request becomes inactive during the profiler's call to
+ * A rejit request becomes inactive during the profiler's call to
* ICorProfInfo::RequestRevert. Even after being reverted a thread can still
* be executing in the rejited code.
*/
@@ -5482,20 +5483,20 @@ ICorDebugFunction4 is a logical extension to ICorDebugFunction.
interface ICorDebugFunction4 : IUnknown
{
/*
- * Sets a breakpoint at offset 0 of any current or future jitted methods.
+ * Sets a breakpoint at offset 0 of any current or future jitted methods.
*/
HRESULT CreateNativeBreakpoint(ICorDebugFunctionBreakpoint **ppBreakpoint);
};
/*
ICorDebugCode represents an IL or native code blob.
-
+
For methods that take offsets, the units are the same as the units on the CordbCode object.
(eg, IL offsets for an IL code object, and native offsets for a native code object)
-
+
V2 allows multiple code-regions. CordbCode presents an abstraction where these
are merged together in a single linear, continuous space. So if the code is split
- with 0x5 bytes at address 0x1000, and 0x10 bytes at address 0x2000,
+ with 0x5 bytes at address 0x1000, and 0x10 bytes at address 0x2000,
then:
- GetAddress() yields a start address of 0x1000.
- GetSize() is the size of the merged regions = 0x5+ 0x10 = 0x15 bytes.
@@ -5543,7 +5544,7 @@ interface ICorDebugCode : IUnknown
/*
* CreateBreakpoint creates a breakpoint in the function at the
- * given offset.
+ * given offset.
*
* If this code is IL code, and there is a jitted native version
* of the code, the breakpoint will be applied in the jitted code
@@ -5741,25 +5742,25 @@ interface ICorDebugILCode2 : IUnknown
/*
ICorDebugClass represents a Class (mdTypeDef) in the IL image.
- For generic types, it represents the generic type definition (eg. List<T>) not any of
- the specific instantiations (eg. List<int>).
-
+ For generic types, it represents the generic type definition (eg. List<T>) not any of
+ the specific instantiations (eg. List<int>).
+
Use ICorDebugClass2::GetParameterizedType to build an ICorDebugType from an
ICorDebugClass and type parameters.
- Classes live in a module and are uniquely identified by a mdTypeDef.
+ Classes live in a module and are uniquely identified by a mdTypeDef.
In other words, you can round-trip a class like so:
ICorDebugClass * pClass1 = ...; // some initial class
-
- ICorDebugModule * pModule = NULL;
+
+ ICorDebugModule * pModule = NULL;
pClass1->GetModule(&pModule);
mdTypeDef token;
pClass1->GetToken(&token);
-
+
ICorDebugClass * pClass2;
- pModule->GetClassFromToken(token, &pClass2);
- // Now: pClass1 == pClass2
+ pModule->GetClassFromToken(token, &pClass2);
+ // Now: pClass1 == pClass2
*/
[
@@ -5791,12 +5792,12 @@ interface ICorDebugClass : IUnknown
* Note that if the class accepts type parameters, then you should
* use GetStaticField on an appropriate ICorDebugType rather than on the
* ICorDebugClass.
- *
+ *
* Returns:
* S_OK on success.
* CORDBG_E_FIELD_NOT_STATIC if the field is not static.
* CORDBG_E_STATIC_VAR_NOT_AVAILABLE if field is not yet available (storage for statics
- * may be lazily allocated).
+ * may be lazily allocated).
* CORDBG_E_VARIABLE_IS_ACTUALLY_LITERAL if the field is actually a metadata literal. In this
* case, the debugger should get the value from the metadata.
* error on other errors.
@@ -5894,7 +5895,7 @@ interface ICorDebugEval : IUnknown
* CallFunction sets up a function call. Note that if the function
* is virtual, this will perform virtual dispatch. If the function is
* not static, then the first argument must be the "this" object.
- * If the function is in an a different AppDomain, a transition will
+ * If the function is in an a different AppDomain, a transition will
* occur (but all arguments must also be in the target AppDomain)
*/
@@ -6176,7 +6177,7 @@ interface ICorDebugValue3 : IUnknown
{
/*
* GetSize returns the size of the value in bytes. It has the same
- * semantics as ICorDebugValue::GetSize except that it works
+ * semantics as ICorDebugValue::GetSize except that it works
* for arrays >4GB.
*/
@@ -6342,7 +6343,7 @@ interface ICorDebugHeapValue2 : IUnknown
interface ICorDebugHeapValue3 : IUnknown
{
- /*
+ /*
* Gets the owning thread for a monitor lock
*/
HRESULT GetThreadOwningMonitorLock([out] ICorDebugThread **ppThread, [out] DWORD *pAcquisitionCount);
@@ -6585,7 +6586,7 @@ interface ICorDebugVariableHome : IUnknown
* Returns E_FAIL if the variable is a function argument.
*/
HRESULT GetSlotIndex([out] ULONG32 *pSlotIndex);
-
+
/*
* GetArgumentIndex - gives the argument index of a function argument.
* The argument index can be used to retrieve the metadata for this
@@ -6610,7 +6611,7 @@ interface ICorDebugVariableHome : IUnknown
// location
VLT_INVALID
} VariableLocationType;
-
+
/*
* GetLocationType - gives the type of native location. See
* VariableLocationType.
@@ -6627,7 +6628,7 @@ interface ICorDebugVariableHome : IUnknown
* register-relative location.
*/
HRESULT GetRegister([out] CorDebugRegister *pRegister);
-
+
/*
* GetOffset - gives the offset from the base register for a variable.
* Returns E_FAIL if the variable is not in a register-relative memory
@@ -6638,7 +6639,7 @@ interface ICorDebugVariableHome : IUnknown
-/*
+/*
* ICorDebugHandleValue represents a reference value that the debugger has
* explicitly created a GC handle to. It does not represent GC Handles in the debuggee process,
@@ -6709,18 +6710,18 @@ interface ICorDebugComObjectValue : IUnknown
* that are cached by the COM object.
*/
HRESULT GetCachedInterfaceTypes(
- [in] BOOL bIInspectableOnly,
+ [in] BOOL bIInspectableOnly,
[out] ICorDebugTypeEnum **ppInterfacesEnum);
/*
* GetCachedInterfacePointers returns at most celt values of the
* interface pointer values cached by the COM object. It fills
- * pcEltFetched with the actual number of fetched elements.
+ * pcEltFetched with the actual number of fetched elements.
* When called with NULL for ptrs, and 0 for celt, it simply returns
* the number of elements it needs.
*/
HRESULT GetCachedInterfacePointers(
- [in] BOOL bIInspectableOnly,
+ [in] BOOL bIInspectableOnly,
[in] ULONG32 celt,
[out] ULONG32 *pcEltFetched,
[out, size_is(celt), length_is(*pcEltFetched)] CORDB_ADDRESS * ptrs);
@@ -6969,7 +6970,7 @@ interface ICorDebugVariableHomeEnum : ICorDebugEnum
ICorDebugVariableHome *homes[],
[out] ULONG *pceltFetched);
};
-
+
[
object,
local,
@@ -7018,7 +7019,7 @@ interface ICorDebugTypeEnum : ICorDebugEnum
* represent instantiated generic types (Eg, List<int>)
* Use the metadata interfaces to get static (Compile-time) information about the type.
*
- * A type (and all of its type parameters) lives in an single AppDomain and becomes
+ * A type (and all of its type parameters) lives in an single AppDomain and becomes
* invalid once the containing ICorDebugAppDomain is unloaded.
*
* Types may be lazily loaded, so if the debugger queries for a type that hasn't been
@@ -7277,7 +7278,7 @@ interface ICorDebugMDA : IUnknown
// Get the flags associated w/ the MDA. New flags may be added in future versions.
typedef enum CorDebugMDAFlags
{
- // If this flag is high, then the thread may have slipped since the MDA was fired.
+ // If this flag is high, then the thread may have slipped since the MDA was fired.
MDA_FLAG_SLIP = 0x2
} CorDebugMDAFlags;
HRESULT GetFlags([in] CorDebugMDAFlags * pFlags);
diff --git a/src/pal/prebuilt/idl/cordebug_i.cpp b/src/pal/prebuilt/idl/cordebug_i.cpp
index 26dcc003c1..69d03ac7bf 100644
--- a/src/pal/prebuilt/idl/cordebug_i.cpp
+++ b/src/pal/prebuilt/idl/cordebug_i.cpp
@@ -8,7 +8,7 @@
/* File created by MIDL compiler version 8.01.0622 */
/* at Mon Jan 18 19:14:07 2038
*/
-/* Compiler settings for C:/Dev/coreclr/src/inc/cordebug.idl:
+/* Compiler settings for F:/Dev/coreclr/src/inc/cordebug.idl:
Oicf, W1, Zp8, env=Win32 (32b run), target_arch=X86 8.01.0622
protocol : dce , ms_ext, c_ext, robust
error checks: allocation ref bounds_check enum stub_data
diff --git a/src/pal/prebuilt/inc/cordebug.h b/src/pal/prebuilt/inc/cordebug.h
index 66eaf204ff..fd61bd1107 100644
--- a/src/pal/prebuilt/inc/cordebug.h
+++ b/src/pal/prebuilt/inc/cordebug.h
@@ -6,7 +6,7 @@
/* File created by MIDL compiler version 8.01.0622 */
/* at Mon Jan 18 19:14:07 2038
*/
-/* Compiler settings for C:/Dev/coreclr/src/inc/cordebug.idl:
+/* Compiler settings for F:/Dev/coreclr/src/inc/cordebug.idl:
Oicf, W1, Zp8, env=Win32 (32b run), target_arch=X86 8.01.0622
protocol : dce , ms_ext, c_ext, robust
error checks: allocation ref bounds_check enum stub_data
@@ -3773,9 +3773,11 @@ EXTERN_C const IID IID_ICorDebugManagedCallback4;
ICorDebugManagedCallback4 : public IUnknown
{
public:
- virtual HRESULT STDMETHODCALLTYPE SomeWork(
- /* [in] */ ICorDebugThread *pThread,
- /* [in] */ ICorDebugAppDomain *pAppDomain) = 0;
+ virtual HRESULT STDMETHODCALLTYPE BeforeGarbageCollection(
+ ICorDebugController *pController) = 0;
+
+ virtual HRESULT STDMETHODCALLTYPE AfterGarbageCollection(
+ ICorDebugController *pController) = 0;
};
@@ -3798,10 +3800,13 @@ EXTERN_C const IID IID_ICorDebugManagedCallback4;
ULONG ( STDMETHODCALLTYPE *Release )(
ICorDebugManagedCallback4 * This);
- HRESULT ( STDMETHODCALLTYPE *SomeWork )(
+ HRESULT ( STDMETHODCALLTYPE *BeforeGarbageCollection )(
ICorDebugManagedCallback4 * This,
- /* [in] */ ICorDebugThread *pThread,
- /* [in] */ ICorDebugAppDomain *pAppDomain);
+ ICorDebugController *pController);
+
+ HRESULT ( STDMETHODCALLTYPE *AfterGarbageCollection )(
+ ICorDebugManagedCallback4 * This,
+ ICorDebugController *pController);
END_INTERFACE
} ICorDebugManagedCallback4Vtbl;
@@ -3826,8 +3831,11 @@ EXTERN_C const IID IID_ICorDebugManagedCallback4;
( (This)->lpVtbl -> Release(This) )
-#define ICorDebugManagedCallback4_SomeWork(This,pThread,pAppDomain) \
- ( (This)->lpVtbl -> SomeWork(This,pThread,pAppDomain) )
+#define ICorDebugManagedCallback4_BeforeGarbageCollection(This,pController) \
+ ( (This)->lpVtbl -> BeforeGarbageCollection(This,pController) )
+
+#define ICorDebugManagedCallback4_AfterGarbageCollection(This,pController) \
+ ( (This)->lpVtbl -> AfterGarbageCollection(This,pController) )
#endif /* COBJMACROS */
diff --git a/src/vm/dbginterface.h b/src/vm/dbginterface.h
index 71af1b45b6..a855a10357 100644
--- a/src/vm/dbginterface.h
+++ b/src/vm/dbginterface.h
@@ -59,19 +59,19 @@ public:
virtual void DetachThread(Thread *pRuntimeThread) = 0;
- // Called when a module is being loaded into an AppDomain.
+ // Called when a module is being loaded into an AppDomain.
// This includes when a domain neutral module is loaded into a new AppDomain.
- // This is called only when a debugger is attached, and will occur after the
- // related LoadAssembly and AddAppDomainToIPCBlock calls and before any
+ // This is called only when a debugger is attached, and will occur after the
+ // related LoadAssembly and AddAppDomainToIPCBlock calls and before any
// LoadClass calls for this module.
virtual void LoadModule(Module * pRuntimeModule, // the module being loaded
LPCWSTR psModuleName, // module file name
DWORD dwModuleName, // number of characters in file name excludign null
Assembly * pAssembly, // the assembly the module belongs to
AppDomain * pAppDomain, // the AppDomain the module is being loaded into
- DomainFile * pDomainFile,
- BOOL fAttaching) = 0; // true if this notification is due to a debugger
- // being attached to the process
+ DomainFile * pDomainFile,
+ BOOL fAttaching) = 0; // true if this notification is due to a debugger
+ // being attached to the process
// Called AFTER LoadModule, and after the module has reached FILE_LOADED. This lets
// dbgapi do any processing that needs to wait until the FILE_LOADED stage (e.g.,
@@ -87,7 +87,7 @@ public:
virtual void UnloadModule(Module* pRuntimeModule, AppDomain *pAppDomain) = 0;
// Called when a Module* is being destroyed.
- // Specifically, the Module has completed unloading (which may have been done asyncronously), all resources
+ // Specifically, the Module has completed unloading (which may have been done asyncronously), all resources
// associated are being freed, and the Module* is about to become invalid. The debugger should remove all
// references to this Module*.
// NOTE: This is called REGARDLESS of whether a debugger is attached or not, and will occur after any other
@@ -157,7 +157,7 @@ public:
//
// RequestFavor ensures that the helper thread has been initialized to
// execute favors and then calls Debugger:DoFavor. It blocks until the
- // favor callback completes.
+ // favor callback completes.
//
// Parameters:
// fp - Favour callback function
@@ -165,7 +165,7 @@ public:
//
// Return values:
// S_OK if the function succeeds, else a failure HRESULT
- //
+ //
virtual HRESULT RequestFavor(FAVORCALLBACK fp, void * pData) = 0;
#endif // #ifndef DACCESS_COMPILE
@@ -247,7 +247,7 @@ public:
SString * pMessage) = 0;
// send a custom notification from the target to the RS. This will become an ICorDebugThread and
- // ICorDebugAppDomain on the RS.
+ // ICorDebugAppDomain on the RS.
virtual void SendCustomDebuggerNotification(Thread * pThread, DomainFile * pDomainFile, mdTypeDef classToken) = 0;
// Send an MDA notification. This ultimately translates to an ICorDebugMDA object on the Right-Side.
@@ -286,12 +286,12 @@ public:
virtual HRESULT GetILToNativeMappingIntoArrays(
MethodDesc * pMethodDesc,
- PCODE pCode,
- USHORT cMapMax,
+ PCODE pCode,
+ USHORT cMapMax,
USHORT * pcMap,
- UINT ** prguiILOffset,
+ UINT ** prguiILOffset,
UINT ** prguiNativeOffset) = 0;
-
+
virtual DWORD GetHelperThreadID(void ) = 0;
// Called whenever a new AppDomain is created, regardless of whether a debugger is attached.
@@ -304,9 +304,9 @@ public:
virtual HRESULT UpdateAppDomainEntryInIPC (AppDomain *pAppDomain) = 0;
- // Called when an assembly is being loaded into an AppDomain.
+ // Called when an assembly is being loaded into an AppDomain.
// This includes when a domain neutral assembly is loaded into a new AppDomain.
- // This is called only when a debugger is attached, and will occur after the
+ // This is called only when a debugger is attached, and will occur after the
// related AddAppDomainToIPCBlock call and before any LoadModule or
// LoadClass calls for this assembly.
virtual void LoadAssembly(DomainAssembly * pDomainAssembly) = 0; // the assembly being loaded
@@ -409,7 +409,8 @@ public:
virtual void EnumMemoryRegionsIfFuncEvalFrame(CLRDataEnumMemoryFlags flags, Frame * pFrame) = 0;
#endif
#ifndef DACCESS_COMPILE
- virtual void SomeWork() = 0;
+ virtual void BeforeGarbageCollection() = 0;
+ virtual void AfterGarbageCollection() = 0;
#endif
};
diff --git a/src/vm/gcenv.ee.cpp b/src/vm/gcenv.ee.cpp
index 41814d86ab..99b08171d5 100644
--- a/src/vm/gcenv.ee.cpp
+++ b/src/vm/gcenv.ee.cpp
@@ -3,7 +3,7 @@
// See the LICENSE file in the project root for more information.
/*
- * GCENV.EE.CPP
+ * GCENV.EE.CPP
*
* GCToEEInterface implementation
*
@@ -21,7 +21,7 @@ void GCToEEInterface::SuspendEE(SUSPEND_REASON reason)
_ASSERTE(reason == SUSPEND_FOR_GC || reason == SUSPEND_FOR_GC_PREP);
// TODO, between the time when the debug event is sent and the EE is suspended, there is a small window that the data breakpoint could have already hit
- g_pDebugInterface->SomeWork();
+ g_pDebugInterface->BeforeGarbageCollection();
ThreadSuspend::SuspendEE((ThreadSuspend::SUSPEND_REASON)reason);
}
@@ -31,6 +31,9 @@ void GCToEEInterface::RestartEE(bool bFinishedGC)
WRAPPER_NO_CONTRACT;
ThreadSuspend::RestartEE(bFinishedGC, TRUE);
+
+ // TODO, between the time when the debug event is sent and the EE is suspended, there is a small window that the data breakpoint could have already hit
+ g_pDebugInterface->AfterGarbageCollection();
}
VOID GCToEEInterface::SyncBlockCacheWeakPtrScan(HANDLESCANPROC scanProc, uintptr_t lp1, uintptr_t lp2)
@@ -46,8 +49,8 @@ VOID GCToEEInterface::SyncBlockCacheWeakPtrScan(HANDLESCANPROC scanProc, uintptr
}
-//EE can perform post stack scanning action, while the
-// user threads are still suspended
+//EE can perform post stack scanning action, while the
+// user threads are still suspended
VOID GCToEEInterface::AfterGcScanRoots (int condemned, int max_gen,
ScanContext* sc)
{
@@ -74,7 +77,7 @@ VOID GCToEEInterface::AfterGcScanRoots (int condemned, int max_gen,
/*
* Scan all stack roots
*/
-
+
static void ScanStackRoots(Thread * pThread, promote_func* fn, ScanContext* sc)
{
GCCONTEXT gcctx;
@@ -92,19 +95,19 @@ static void ScanStackRoots(Thread * pThread, promote_func* fn, ScanContext* sc)
_ASSERTE(dbgOnly_IsSpecialEEThread() ||
GetThread() == NULL ||
// this is for background GC threads which always call this when EE is suspended.
- IsGCSpecialThread() ||
+ IsGCSpecialThread() ||
(GetThread() == ThreadSuspend::GetSuspensionThread() && ThreadStore::HoldingThreadStore()));
pThread->SetHasPromotedBytes();
Frame* pTopFrame = pThread->GetFrame();
Object ** topStack = (Object **)pTopFrame;
- if ((pTopFrame != ((Frame*)-1))
+ if ((pTopFrame != ((Frame*)-1))
&& (pTopFrame->GetVTablePtr() == InlinedCallFrame::GetMethodFrameVPtr())) {
// It is an InlinedCallFrame. Get SP from it.
InlinedCallFrame* pInlinedFrame = (InlinedCallFrame*)pTopFrame;
topStack = (Object **)pInlinedFrame->GetCallSiteSP();
- }
+ }
sc->stack_limit = (uintptr_t)topStack;
@@ -144,11 +147,11 @@ static void ScanStackRoots(Thread * pThread, promote_func* fn, ScanContext* sc)
}
else
#endif
- {
+ {
unsigned flagsStackWalk = ALLOW_ASYNC_STACK_WALK | ALLOW_INVALID_OBJECTS;
-#if defined(WIN64EXCEPTIONS)
+#if defined(WIN64EXCEPTIONS)
flagsStackWalk |= GC_FUNCLET_REFERENCE_REPORTING;
-#endif // defined(WIN64EXCEPTIONS)
+#endif // defined(WIN64EXCEPTIONS)
pThread->StackWalkFrames( GcStackCrawlCallBack, &gcctx, flagsStackWalk);
}
}
@@ -213,11 +216,11 @@ void GCToEEInterface::GcStartWork (int condemned, int max_gen)
// Jupiter will
// 1. Report reference from RCW to CCW based on native reference in Jupiter
// 2. Identify the subset of CCWs that needs to be rooted
- //
+ //
// We'll build the references from RCW to CCW using
// 1. Preallocated arrays
// 2. Dependent handles
- //
+ //
RCWWalker::OnGCStarted(condemned);
#endif // FEATURE_COMINTEROP
@@ -239,7 +242,7 @@ void GCToEEInterface::GcDone(int condemned)
#ifdef FEATURE_COMINTEROP
//
// Tell Jupiter GC has finished
- //
+ //
RCWWalker::OnGCFinished(condemned);
#endif // FEATURE_COMINTEROP
}
@@ -311,13 +314,13 @@ uint32_t GCToEEInterface::GetActiveSyncBlockCount()
}
CONTRACTL_END;
- return SyncBlockCache::GetSyncBlockCache()->GetActiveCount();
+ return SyncBlockCache::GetSyncBlockCache()->GetActiveCount();
}
gc_alloc_context * GCToEEInterface::GetAllocContext()
{
WRAPPER_NO_CONTRACT;
-
+
Thread* pThread = ::GetThread();
assert(pThread != nullptr);
return pThread->GetAllocContext();
@@ -494,7 +497,7 @@ void ProfScanRootsHelper(Object** ppObject, ScanContext *pSC, uint32_t dwFlags)
// Returns TRUE if GC profiling is enabled and the profiler
// should scan dependent handles, FALSE otherwise.
-BOOL ProfilerShouldTrackConditionalWeakTableElements()
+BOOL ProfilerShouldTrackConditionalWeakTableElements()
{
#if defined(GC_PROFILING)
return CORProfilerTrackConditionalWeakTableElements();
@@ -516,7 +519,7 @@ void ProfilerEndConditionalWeakTableElementReferences(void* heapId)
// If GC profiling is enabled, informs the profiler that we are done
// tracing root references.
-void ProfilerEndRootReferences2(void* heapId)
+void ProfilerEndRootReferences2(void* heapId)
{
#if defined (GC_PROFILING)
g_profControlBlock.pProfInterface->EndRootReferences2(heapId);
@@ -556,7 +559,7 @@ void ScanHandleForProfilerAndETW(Object** pRef, Object* pSec, uint32_t flags, Sc
(uint8_t *)*pRef,
kEtwGCRootKindHandle,
(EtwGCRootFlags)flags,
- pRef,
+ pRef,
&pSC->pHeapId);
END_PIN_PROFILER();
}
@@ -586,7 +589,7 @@ void ScanHandleForProfilerAndETW(Object** pRef, Object* pSec, uint32_t flags, Sc
0, // dwGCFlags,
flags); // ETW handle flags
}
-#endif // defined(FEATURE_EVENT_TRACE)
+#endif // defined(FEATURE_EVENT_TRACE)
}
// This is called only if we've determined that either:
@@ -677,7 +680,7 @@ void GCProfileWalkHeap()
#ifdef FEATURE_EVENT_TRACE
if (ETW::GCLog::ShouldWalkStaticsAndCOMForEtw())
ETW::GCLog::WalkStaticsAndCOMForETW();
-
+
BOOL fShouldWalkHeapRootsForEtw = ETW::GCLog::ShouldWalkHeapRootsForEtw();
BOOL fShouldWalkHeapObjectsForEtw = ETW::GCLog::ShouldWalkHeapObjectsForEtw();
#else // !FEATURE_EVENT_TRACE
@@ -730,7 +733,7 @@ void GCToEEInterface::DiagGCStart(int gen, bool isInduced)
END_PIN_PROFILER();
}
-#endif // GC_PROFILING
+#endif // GC_PROFILING
}
void GCToEEInterface::DiagUpdateGenerationBounds()
@@ -768,9 +771,9 @@ void GCToEEInterface::DiagWalkFReachableObjects(void* gcContext)
// Note on last parameter: when calling this for bgc, only ETW
// should be sending these events so that existing profapi profilers
// don't get confused.
-void WalkMovedReferences(uint8_t* begin, uint8_t* end,
+void WalkMovedReferences(uint8_t* begin, uint8_t* end,
ptrdiff_t reloc,
- void* context,
+ void* context,
bool fCompacting,
bool fBGC)
{
@@ -855,7 +858,7 @@ void GCToEEInterface::StompWriteBarrier(WriteBarrierParameters* args)
// We need to make sure that other threads executing checked write barriers
// will see the g_card_table update before g_lowest/highest_address updates.
// Otherwise, the checked write barrier may AV accessing the old card table
- // with address that it does not cover.
+ // with address that it does not cover.
//
// Even x86's total store ordering is insufficient here because threads reading
// g_card_table do so via the instruction cache, whereas g_lowest/highest_address
@@ -931,7 +934,7 @@ void GCToEEInterface::StompWriteBarrier(WriteBarrierParameters* args)
assert(g_card_bundle_table == nullptr);
g_card_bundle_table = args->card_bundle_table;
#endif
-
+
g_lowest_address = args->lowest_address;
g_highest_address = args->highest_address;
stompWBCompleteActions |= ::StompWriteBarrierResize(true, false);
@@ -968,13 +971,13 @@ void GCToEEInterface::StompWriteBarrier(WriteBarrierParameters* args)
default:
assert(!"unknown WriteBarrierOp enum");
}
- if (stompWBCompleteActions & SWB_ICACHE_FLUSH)
+ if (stompWBCompleteActions & SWB_ICACHE_FLUSH)
{
::FlushWriteBarrierInstructionCache();
}
- if (stompWBCompleteActions & SWB_EE_RESTART)
+ if (stompWBCompleteActions & SWB_EE_RESTART)
{
- assert(!args->is_runtime_suspended &&
+ assert(!args->is_runtime_suspended &&
"if runtime was suspended in patching routines then it was in running state at begining");
ThreadSuspend::RestartEE(FALSE, TRUE);
}
@@ -1137,7 +1140,7 @@ bool GCToEEInterface::GetStringConfigValue(const char* key, const char** value)
return false;
}
- if (WideCharToMultiByte(CP_ACP, 0, out, -1 /* out is null-terminated */,
+ if (WideCharToMultiByte(CP_ACP, 0, out, -1 /* out is null-terminated */,
configResult.GetValue(), MaxConfigKeyLength, nullptr, nullptr) == 0)
{
// this should only happen if the config subsystem gives us a string that's not valid